From aa8a6d0269c4cf01c9533c67f2e448ab3826135b Mon Sep 17 00:00:00 2001
From: Boris Zbarsky <bzbarsky@apple.com>
Date: Mon, 22 Nov 2021 10:40:51 -0500
Subject: [PATCH] Enable reporting for all non-list attributes. (#11995)

---
 .../all-clusters-common/all-clusters-app.zap  |  1570 +-
 .../bridge-app/bridge-common/bridge-app.zap   |   394 +-
 examples/chip-tool/templates/commands.zapt    |     4 +
 .../templates/reporting-commands.zapt         |     6 +
 .../lighting-common/lighting-app.zap          |   544 +-
 examples/lock-app/lock-common/lock-app.zap    |   442 +-
 .../ota-provider-common/ota-provider-app.zap  |   246 +-
 .../ota-requestor-app.zap                     |   248 +-
 .../placeholder/linux/apps/app1/config.zap    |   132 +-
 .../placeholder/linux/apps/app2/config.zap    |   122 +-
 examples/pump-app/pump-common/pump-app.zap    |   506 +-
 .../pump-controller-app.zap                   |   472 +-
 .../esp32/main/temperature-measurement.zap    |   238 +-
 .../thermostat-common/thermostat.zap          |  1110 +-
 examples/tv-app/tv-common/tv-app.zap          |   850 +-
 .../tv-casting-common/tv-casting-app.zap      |  1304 +-
 examples/window-app/common/window-app.zap     |   636 +-
 .../templates/app/CHIPClusters-src.zapt       |     2 +
 .../templates/app/CHIPClusters.zapt           |     2 +
 .../data_model/controller-clusters.zap        |  1088 +-
 .../java/templates/CHIPClusters-JNI.zapt      |     5 +-
 .../java/templates/ChipClusters-java.zapt     |     6 +-
 .../java/zap-generated/CHIPClusters-JNI.cpp   | 33919 ++++++++++---
 .../chip/devicecontroller/ChipClusters.java   |  6198 ++-
 .../python/chip/clusters/CHIPClusters.cpp     |  5551 ++-
 .../python/chip/clusters/CHIPClusters.py      |  3291 ++
 .../templates/python-CHIPClusters-cpp.zapt    |     2 +
 .../templates/python-CHIPClusters-py.zapt     |     4 +
 .../CHIP/templates/CHIPClustersObjc-src.zapt  |     2 +
 .../CHIP/templates/CHIPClustersObjc.zapt      |     2 +
 .../CHIP/zap-generated/CHIPClustersObjc.h     |  1628 +
 .../CHIP/zap-generated/CHIPClustersObjc.mm    | 17117 +++++--
 .../zap-generated/cluster/Commands.h          | 41290 ++++++++++++----
 .../zap-generated/reporting/Commands.h        |  2308 +-
 .../zap-generated/CHIPClusters.cpp            |  7064 ++-
 .../zap-generated/CHIPClusters.h              |  1346 +
 .../zap-generated/CHIPClusters.cpp            |   102 +
 .../lighting-app/zap-generated/CHIPClusters.h |    19 +
 .../zap-generated/CHIPClusters.cpp            |    17 +
 .../zap-generated/CHIPClusters.h              |     3 +
 .../pump-app/zap-generated/CHIPClusters.cpp   |   153 +
 .../pump-app/zap-generated/CHIPClusters.h     |    33 +
 .../zap-generated/CHIPClusters.cpp            |   322 +
 .../zap-generated/CHIPClusters.h              |    65 +
 .../thermostat/zap-generated/CHIPClusters.cpp |    51 +
 .../thermostat/zap-generated/CHIPClusters.h   |     9 +
 .../tv-app/zap-generated/CHIPClusters.cpp     |   119 +
 .../tv-app/zap-generated/CHIPClusters.h       |    24 +
 48 files changed, 105024 insertions(+), 25542 deletions(-)

diff --git a/examples/all-clusters-app/all-clusters-common/all-clusters-app.zap b/examples/all-clusters-app/all-clusters-common/all-clusters-app.zap
index 5d4c6aea12ce51..adbbcd2b440296 100644
--- a/examples/all-clusters-app/all-clusters-common/all-clusters-app.zap
+++ b/examples/all-clusters-app/all-clusters-common/all-clusters-app.zap
@@ -80,7 +80,7 @@
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@@ -115,7 +115,7 @@
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@@ -130,7 +130,7 @@
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@@ -279,7 +279,7 @@
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diff --git a/examples/bridge-app/bridge-common/bridge-app.zap b/examples/bridge-app/bridge-common/bridge-app.zap
index 02124c3937d132..4e3ed8df5899c1 100644
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               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -2212,7 +2212,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000000000000000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -2227,7 +2227,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0001",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2262,7 +2262,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0001",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2288,7 +2288,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -2303,7 +2303,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -2318,7 +2318,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000000000000000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2333,7 +2333,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000000000000000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2348,7 +2348,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000000000000000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2363,7 +2363,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000000000000000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2378,7 +2378,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000000000000000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2393,7 +2393,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -2408,7 +2408,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000000000000000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -2423,7 +2423,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0001",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2474,7 +2474,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0001",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2500,7 +2500,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0001",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2599,7 +2599,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0001",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2658,7 +2658,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2673,7 +2673,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2688,7 +2688,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2703,7 +2703,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2718,7 +2718,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -2733,7 +2733,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0001",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2784,7 +2784,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "2",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2819,7 +2819,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2834,7 +2834,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "2",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2909,7 +2909,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2968,7 +2968,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -2983,7 +2983,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3066,7 +3066,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3141,7 +3141,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3156,7 +3156,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3171,7 +3171,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3186,7 +3186,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3201,7 +3201,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3216,7 +3216,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3267,7 +3267,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "2",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3308,7 +3308,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "4",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3399,7 +3399,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3440,7 +3440,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -3455,7 +3455,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -3470,7 +3470,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0xFF",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -3485,7 +3485,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -3500,7 +3500,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -3515,7 +3515,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -3530,7 +3530,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -3545,7 +3545,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -3560,7 +3560,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0xFE",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -3575,7 +3575,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -3590,7 +3590,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -3605,7 +3605,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -3620,7 +3620,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -3635,7 +3635,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3661,7 +3661,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "1",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -3687,7 +3687,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -3702,7 +3702,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -3717,7 +3717,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -3732,7 +3732,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -3747,7 +3747,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "1",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -3773,7 +3773,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3824,7 +3824,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3839,7 +3839,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3854,7 +3854,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3869,7 +3869,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3884,7 +3884,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3899,7 +3899,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3914,7 +3914,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3929,7 +3929,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3944,7 +3944,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3959,7 +3959,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3974,7 +3974,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -3989,7 +3989,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -4015,7 +4015,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0001",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -4041,7 +4041,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "2",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -4071,7 +4071,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "2",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -4086,7 +4086,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -4101,7 +4101,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0001",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -4127,7 +4127,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0001",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -4153,7 +4153,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -4168,7 +4168,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0001",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
diff --git a/examples/chip-tool/templates/commands.zapt b/examples/chip-tool/templates/commands.zapt
index 508fd0df266e1e..f3421ffe5dfa0d 100644
--- a/examples/chip-tool/templates/commands.zapt
+++ b/examples/chip-tool/templates/commands.zapt
@@ -500,6 +500,7 @@ private:
 {{/unless}}
 {{/if}}
 {{#if isReportableAttribute}}
+{{#unless isList}}
 class Report{{asUpperCamelCase parent.name}}{{asUpperCamelCase name}}: public ModelCommand
 {
 public:
@@ -548,6 +549,7 @@ private:
     bool mWait;
 };
 
+{{/unless}}
 {{/if}}
 {{/chip_server_cluster_attributes}}
 {{/chip_client_clusters}}
@@ -574,7 +576,9 @@ void registerCluster{{asUpperCamelCase name}}(Commands & commands)
         {{/unless}}
         {{/if}}
         {{#if isReportableAttribute}}
+        {{#unless isList}}
         make_unique<Report{{asUpperCamelCase parent.name}}{{asUpperCamelCase name}}>(), //
+        {{/unless}}
         {{/if}}
         {{/chip_server_cluster_attributes}}
     };
diff --git a/examples/chip-tool/templates/reporting-commands.zapt b/examples/chip-tool/templates/reporting-commands.zapt
index 25d0808300a888..2995440e76ac34 100644
--- a/examples/chip-tool/templates/reporting-commands.zapt
+++ b/examples/chip-tool/templates/reporting-commands.zapt
@@ -19,7 +19,9 @@ public:
 {{#chip_client_clusters}}
 {{#chip_server_cluster_attributes}}
 {{#if isReportableAttribute}}
+{{#unless isList}}
     delete onReport{{asUpperCamelCase parent.name}}{{asUpperCamelCase name}}Callback;
+{{/unless}}
 {{/if}}
 {{/chip_server_cluster_attributes}}
 {{/chip_client_clusters}}
@@ -31,7 +33,9 @@ public:
 {{#chip_client_clusters}}
 {{#chip_server_cluster_attributes}}
 {{#if isReportableAttribute}}
+{{#unless isList}}
         callbacksMgr.AddReportCallback(remoteId, endpointId, {{asHex parent.code 4}}, {{asHex code 4}}, onReport{{asUpperCamelCase parent.name}}{{asUpperCamelCase name}}Callback->Cancel(), BasicAttributeFilter<{{chipCallback.name}}AttributeCallback>);
+{{/unless}}
 {{/if}}
 {{/chip_server_cluster_attributes}}
 {{/chip_client_clusters}}
@@ -76,7 +80,9 @@ private:
 {{#chip_client_clusters}}
 {{#chip_server_cluster_attributes}}
 {{#if isReportableAttribute}}
+{{#unless isList}}
     chip::Callback::Callback<{{chipCallback.name}}AttributeCallback> * onReport{{asUpperCamelCase parent.name}}{{asUpperCamelCase name}}Callback = new chip::Callback::Callback<{{chipCallback.name}}AttributeCallback>(On{{chipCallback.name}}AttributeResponse, this);
+{{/unless}}
 {{/if}}
 {{/chip_server_cluster_attributes}}
 {{/chip_client_clusters}}
diff --git a/examples/lighting-app/lighting-common/lighting-app.zap b/examples/lighting-app/lighting-common/lighting-app.zap
index cdc04a0e8af3ee..b85b3703c9f4dd 100644
--- a/examples/lighting-app/lighting-common/lighting-app.zap
+++ b/examples/lighting-app/lighting-common/lighting-app.zap
@@ -72,7 +72,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "2",
-              "reportable": 0,
+              "reportable": 1,
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diff --git a/examples/lock-app/lock-common/lock-app.zap b/examples/lock-app/lock-common/lock-app.zap
index 019dd840fcbcae..310e0d7d502d1b 100644
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index 440df5b2ab0283..f11cef71e2b8b8 100644
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diff --git a/examples/placeholder/linux/apps/app2/config.zap b/examples/placeholder/linux/apps/app2/config.zap
index 66eaeba1bde306..2d968de21f67d3 100644
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diff --git a/examples/pump-app/pump-common/pump-app.zap b/examples/pump-app/pump-common/pump-app.zap
index e85c3834e2018d..decb37b7bf5ab9 100644
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index 83f18932a7513a..22f138a4295eb3 100644
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diff --git a/examples/window-app/common/window-app.zap b/examples/window-app/common/window-app.zap
index 32be5ce737aa7c..73bdaa2c02df73 100644
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               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6012,7 +6012,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6027,7 +6027,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6110,7 +6110,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6185,7 +6185,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6200,7 +6200,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6215,7 +6215,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6230,7 +6230,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6245,7 +6245,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6260,7 +6260,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6286,7 +6286,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "1",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -6312,7 +6312,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -6327,7 +6327,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -6342,7 +6342,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -6357,7 +6357,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -6372,7 +6372,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "1",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -6398,7 +6398,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6449,7 +6449,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "1",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6464,7 +6464,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6479,7 +6479,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6494,7 +6494,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6509,7 +6509,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6524,7 +6524,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6539,7 +6539,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6554,7 +6554,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "0",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6569,7 +6569,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6584,7 +6584,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "0",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6599,7 +6599,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6614,7 +6614,7 @@
               "singleton": 1,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6697,7 +6697,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "5",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6723,7 +6723,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6738,7 +6738,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6753,7 +6753,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6768,7 +6768,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x03",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6858,7 +6858,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6903,7 +6903,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6918,7 +6918,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0xFFFF",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6933,7 +6933,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6948,7 +6948,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0xFFFF",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6963,7 +6963,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -6993,7 +6993,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0001",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -7008,7 +7008,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "5",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
diff --git a/src/app/zap-templates/templates/app/CHIPClusters-src.zapt b/src/app/zap-templates/templates/app/CHIPClusters-src.zapt
index 7ef524558f29b2..6b1e7da2919d78 100644
--- a/src/app/zap-templates/templates/app/CHIPClusters-src.zapt
+++ b/src/app/zap-templates/templates/app/CHIPClusters-src.zapt
@@ -95,6 +95,7 @@ CHIP_ERROR {{asUpperCamelCase parent.name}}Cluster::WriteAttribute{{asUpperCamel
 {{/unless}}
 {{/if}}
 {{#if isReportableAttribute}}
+{{#unless isList}}
 CHIP_ERROR {{asUpperCamelCase parent.name}}Cluster::SubscribeAttribute{{asUpperCamelCase name}}(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback, uint16_t minInterval, uint16_t maxInterval)
 {
     chip::app::AttributePathParams attributePath;
@@ -109,6 +110,7 @@ CHIP_ERROR {{asUpperCamelCase parent.name}}Cluster::ReportAttribute{{asUpperCame
     return RequestAttributeReporting({{#if isGlobalAttribute}}Globals{{else}}{{asUpperCamelCase parent.name}}{{/if}}::Attributes::{{asUpperCamelCase name}}::Id, onReportCallback, BasicAttributeFilter<{{chipCallback.name}}AttributeCallback>);
 }
 
+{{/unless}}
 {{/if}}
 {{/chip_server_cluster_attributes}}
 
diff --git a/src/app/zap-templates/templates/app/CHIPClusters.zapt b/src/app/zap-templates/templates/app/CHIPClusters.zapt
index af1137626bee30..c74ab861a2caa0 100644
--- a/src/app/zap-templates/templates/app/CHIPClusters.zapt
+++ b/src/app/zap-templates/templates/app/CHIPClusters.zapt
@@ -41,8 +41,10 @@ public:
     {{/chip_server_cluster_attributes}}
     {{#chip_server_cluster_attributes}}
     {{#if isReportableAttribute}}
+    {{#unless isList}}
     CHIP_ERROR SubscribeAttribute{{asUpperCamelCase name}}(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback, uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttribute{{asUpperCamelCase name}}(Callback::Cancelable * onReportCallback);
+    {{/unless}}
     {{/if}}
     {{/chip_server_cluster_attributes}}
     {{#chip_cluster_commands}}
diff --git a/src/controller/data_model/controller-clusters.zap b/src/controller/data_model/controller-clusters.zap
index 2b18418ac1a675..c970a4d7bedd29 100644
--- a/src/controller/data_model/controller-clusters.zap
+++ b/src/controller/data_model/controller-clusters.zap
@@ -80,7 +80,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "2",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -115,7 +115,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -130,7 +130,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -145,7 +145,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "2",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -220,7 +220,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -279,7 +279,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -294,7 +294,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -377,7 +377,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -452,7 +452,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -467,7 +467,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -482,7 +482,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -497,7 +497,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -512,7 +512,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -527,7 +527,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -602,7 +602,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "2",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -643,7 +643,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x01",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -658,7 +658,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -673,7 +673,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -688,7 +688,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -703,7 +703,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -718,7 +718,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "2",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -744,7 +744,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "1",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -770,7 +770,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -785,7 +785,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -800,7 +800,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "1",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -891,7 +891,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -932,7 +932,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -947,7 +947,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -962,7 +962,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0xFF",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -977,7 +977,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -992,7 +992,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -1007,7 +1007,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -1022,7 +1022,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x00",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -1037,7 +1037,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -1052,7 +1052,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0xFE",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -1067,7 +1067,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -1082,7 +1082,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -1097,7 +1097,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -1112,7 +1112,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -1127,7 +1127,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -1153,7 +1153,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0001",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -1179,7 +1179,7 @@
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@@ -11845,7 +11845,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -11860,7 +11860,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -11875,7 +11875,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -11890,7 +11890,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -11905,7 +11905,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -11920,7 +11920,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -11935,7 +11935,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -11950,7 +11950,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "false",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -11965,7 +11965,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -11980,7 +11980,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -11995,7 +11995,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -12010,7 +12010,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -12025,7 +12025,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -12040,7 +12040,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -12055,7 +12055,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -12070,7 +12070,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -12085,7 +12085,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -12100,7 +12100,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -12115,7 +12115,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -12130,7 +12130,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -12145,7 +12145,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -12160,7 +12160,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -12175,7 +12175,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -12190,7 +12190,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 1,
               "maxInterval": 65534,
               "reportableChange": 0
@@ -12205,7 +12205,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0001",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -12231,7 +12231,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -12257,7 +12257,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x000000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -12272,7 +12272,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x000000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -12287,7 +12287,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0xffff",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -12302,7 +12302,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x8000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -12317,7 +12317,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x8000",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -12332,7 +12332,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0xffff",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -12347,7 +12347,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0xffff",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -12362,7 +12362,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0xffff",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -12377,7 +12377,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0xffff",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -12392,7 +12392,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0xffff",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -12407,7 +12407,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0xffff",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -12422,7 +12422,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "3",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -12465,7 +12465,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0001",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -12491,7 +12491,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0001",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -12517,7 +12517,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0001",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -12543,7 +12543,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -12558,7 +12558,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
@@ -12573,7 +12573,7 @@
               "singleton": 0,
               "bounded": 0,
               "defaultValue": "0x0001",
-              "reportable": 0,
+              "reportable": 1,
               "minInterval": 0,
               "maxInterval": 65344,
               "reportableChange": 0
diff --git a/src/controller/java/templates/CHIPClusters-JNI.zapt b/src/controller/java/templates/CHIPClusters-JNI.zapt
index 36692be8fc443e..81bac5365e8a99 100644
--- a/src/controller/java/templates/CHIPClusters-JNI.zapt
+++ b/src/controller/java/templates/CHIPClusters-JNI.zapt
@@ -111,7 +111,7 @@ JNI_METHOD(void, {{asUpperCamelCase ../name}}Cluster, write{{asUpperCamelCase na
 {{/unless}}
 {{/if}}
 {{#if isReportableAttribute}}
-
+{{#unless isList}}
 JNI_METHOD(void, {{asCamelCased ../name false}}Cluster, subscribe{{asCamelCased name false}}Attribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -135,7 +135,7 @@ JNI_METHOD(void, {{asCamelCased ../name false}}Cluster, subscribe{{asCamelCased
 JNI_METHOD(void, {{asCamelCased ../name false}}Cluster, report{{asCamelCased name false}}Attribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIP{{chipCallback.name}}AttributeCallback, void (*)(CHIP{{chipCallback.name}}AttributeCallback *)> onReport(Platform::New<CHIP{{chipCallback.name}}AttributeCallback>(callback{{#if (isString type)}},{{#if (isOctetString type)}}true{{else}}false{{/if}}{{/if}}, true), Platform::Delete<CHIP{{chipCallback.name}}AttributeCallback>);
+    std::unique_ptr<CHIP{{chipCallback.name}}AttributeCallback, void (*)(CHIP{{chipCallback.name}}AttributeCallback *)> onReport(Platform::New<CHIP{{chipCallback.name}}AttributeCallback>(callback, true), Platform::Delete<CHIP{{chipCallback.name}}AttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr, chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
     
     CHIP_ERROR err = CHIP_NO_ERROR;
@@ -147,6 +147,7 @@ JNI_METHOD(void, {{asCamelCased ../name false}}Cluster, report{{asCamelCased nam
 
     onReport.release();
 }
+{{/unless}}
 {{/if}}
 {{/chip_server_cluster_attributes}}
 {{/chip_client_clusters}}
diff --git a/src/controller/java/templates/ChipClusters-java.zapt b/src/controller/java/templates/ChipClusters-java.zapt
index 9898eda122ecb7..5a616694264da3 100644
--- a/src/controller/java/templates/ChipClusters-java.zapt
+++ b/src/controller/java/templates/ChipClusters-java.zapt
@@ -213,7 +213,7 @@ public class ChipClusters {
   {{/unless}}
   {{/if}}
   {{#if isReportableAttribute}}
-
+  {{#unless isList}}
     public void subscribe{{asCamelCased name false}}Attribute(DefaultClusterCallback callback, int minInterval, int maxInterval) {
       subscribe{{asCamelCased name false}}Attribute(chipClusterPtr, callback, minInterval, maxInterval);
     }
@@ -221,6 +221,7 @@ public class ChipClusters {
     public void report{{asCamelCased name false}}Attribute({{convertAttributeCallbackTypeToJavaName chipCallback.type}}AttributeCallback callback) {
       report{{asCamelCased name false}}Attribute(chipClusterPtr, callback);
     }
+  {{/unless}}
   {{/if}}
   {{/chip_server_cluster_attributes}}
   {{#chip_server_cluster_attributes}}
@@ -240,10 +241,11 @@ public class ChipClusters {
   {{/unless}}
   {{/if}}
   {{#if isReportableAttribute}}
-
+  {{#unless isList}}
     private native void subscribe{{asCamelCased name false}}Attribute(long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
 
     private native void report{{asCamelCased name false}}Attribute(long chipClusterPtr, {{convertAttributeCallbackTypeToJavaName chipCallback.type}}AttributeCallback callback);
+  {{/unless}}
   {{/if}}
   {{/chip_server_cluster_attributes}}
   }
diff --git a/src/controller/java/zap-generated/CHIPClusters-JNI.cpp b/src/controller/java/zap-generated/CHIPClusters-JNI.cpp
index 2a9ac856a09abf..5a3d99001eabbd 100644
--- a/src/controller/java/zap-generated/CHIPClusters-JNI.cpp
+++ b/src/controller/java/zap-generated/CHIPClusters-JNI.cpp
@@ -138,6 +138,61 @@ JNI_METHOD(void, AccountLoginCluster, login)
     onSuccess.release();
     onFailure.release();
 }
+JNI_METHOD(void, AccountLoginCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    AccountLoginCluster * cppCluster = reinterpret_cast<AccountLoginCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, AccountLoginCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    AccountLoginCluster * cppCluster = reinterpret_cast<AccountLoginCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
 JNI_METHOD(jlong, AdministratorCommissioningCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
 {
     chip::DeviceLayer::StackLock lock;
@@ -269,6 +324,61 @@ JNI_METHOD(void, AdministratorCommissioningCluster, revokeCommissioning)
     onSuccess.release();
     onFailure.release();
 }
+JNI_METHOD(void, AdministratorCommissioningCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    AdministratorCommissioningCluster * cppCluster = reinterpret_cast<AdministratorCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, AdministratorCommissioningCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    AdministratorCommissioningCluster * cppCluster = reinterpret_cast<AdministratorCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
 JNI_METHOD(jlong, ApplicationBasicCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
 {
     chip::DeviceLayer::StackLock lock;
@@ -316,274 +426,225 @@ JNI_METHOD(void, ApplicationBasicCluster, changeStatus)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, ApplicationLauncherCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    ApplicationLauncherCluster * cppCluster = new ApplicationLauncherCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(void, ApplicationLauncherCluster, launchApp)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jstring data, jobject catalogVendorId, jstring applicationId)
+JNI_METHOD(void, ApplicationBasicCluster, subscribeVendorNameAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ApplicationLauncherCluster * cppCluster;
-
-    chip::app::Clusters::ApplicationLauncher::Commands::LaunchApp::Type request;
-
-    request.data = chip::JniUtfString(env, static_cast<jstring>(data)).charSpan();
-    request.catalogVendorId =
-        static_cast<decltype(request.catalogVendorId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(catalogVendorId));
-    request.applicationId = chip::JniUtfString(env, static_cast<jstring>(applicationId)).charSpan();
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPApplicationLauncherClusterLaunchAppResponseCallback,
-                    void (*)(CHIPApplicationLauncherClusterLaunchAppResponseCallback *)>
-        onSuccess(Platform::New<CHIPApplicationLauncherClusterLaunchAppResponseCallback>(callback),
-                  Platform::Delete<CHIPApplicationLauncherClusterLaunchAppResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ApplicationLauncherCluster *>(clusterPtr);
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    ApplicationBasicCluster * cppCluster = reinterpret_cast<ApplicationBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPApplicationLauncherClusterLaunchAppResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeVendorName(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, AudioOutputCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    AudioOutputCluster * cppCluster = new AudioOutputCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
 
-JNI_METHOD(void, AudioOutputCluster, renameOutput)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject index, jstring name)
+JNI_METHOD(void, ApplicationBasicCluster, reportVendorNameAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    AudioOutputCluster * cppCluster;
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::AudioOutput::Commands::RenameOutput::Type request;
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    ApplicationBasicCluster * cppCluster = reinterpret_cast<ApplicationBasicCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.index = static_cast<decltype(request.index)>(chip::JniReferences::GetInstance().IntegerToPrimitive(index));
-    request.name  = chip::JniUtfString(env, static_cast<jstring>(name)).charSpan();
+    err = cppCluster->ReportAttributeVendorName(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, ApplicationBasicCluster, subscribeVendorIdAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<AudioOutputCluster *>(clusterPtr);
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    ApplicationBasicCluster * cppCluster = reinterpret_cast<ApplicationBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeVendorId(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                 static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, AudioOutputCluster, selectOutput)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject index)
+
+JNI_METHOD(void, ApplicationBasicCluster, reportVendorIdAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    AudioOutputCluster * cppCluster;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::AudioOutput::Commands::SelectOutput::Type request;
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    ApplicationBasicCluster * cppCluster = reinterpret_cast<ApplicationBasicCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.index = static_cast<decltype(request.index)>(chip::JniReferences::GetInstance().IntegerToPrimitive(index));
+    err = cppCluster->ReportAttributeVendorId(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, ApplicationBasicCluster, subscribeApplicationNameAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<AudioOutputCluster *>(clusterPtr);
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    ApplicationBasicCluster * cppCluster = reinterpret_cast<ApplicationBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeApplicationName(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, BarrierControlCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    BarrierControlCluster * cppCluster = new BarrierControlCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
 
-JNI_METHOD(void, BarrierControlCluster, barrierControlGoToPercent)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject percentOpen)
+JNI_METHOD(void, ApplicationBasicCluster, reportApplicationNameAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    BarrierControlCluster * cppCluster;
-
-    chip::app::Clusters::BarrierControl::Commands::BarrierControlGoToPercent::Type request;
-
-    request.percentOpen =
-        static_cast<decltype(request.percentOpen)>(chip::JniReferences::GetInstance().IntegerToPrimitive(percentOpen));
-
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<BarrierControlCluster *>(clusterPtr);
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    ApplicationBasicCluster * cppCluster = reinterpret_cast<ApplicationBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributeApplicationName(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-JNI_METHOD(void, BarrierControlCluster, barrierControlStop)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ApplicationBasicCluster, subscribeProductIdAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    BarrierControlCluster * cppCluster;
-
-    chip::app::Clusters::BarrierControl::Commands::BarrierControlStop::Type request;
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<BarrierControlCluster *>(clusterPtr);
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    ApplicationBasicCluster * cppCluster = reinterpret_cast<ApplicationBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeProductId(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, BasicCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    BasicCluster * cppCluster = new BasicCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
 
-JNI_METHOD(void, BasicCluster, mfgSpecificPing)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ApplicationBasicCluster, reportProductIdAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    BasicCluster * cppCluster;
-
-    chip::app::Clusters::Basic::Commands::MfgSpecificPing::Type request;
-
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    ApplicationBasicCluster * cppCluster = reinterpret_cast<ApplicationBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributeProductId(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, BasicCluster, writeUserLabelAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jstring value)
+JNI_METHOD(void, ApplicationBasicCluster, subscribeApplicationIdAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -598,58 +659,47 @@ JNI_METHOD(void, BasicCluster, writeUserLabelAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err            = CHIP_NO_ERROR;
-    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    ApplicationBasicCluster * cppCluster = reinterpret_cast<ApplicationBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    JniUtfString valueStr(env, value);
-    err = cppCluster->WriteAttributeUserLabel(onSuccess->Cancel(), onFailure->Cancel(),
-                                              chip::CharSpan(valueStr.c_str(), strlen(valueStr.c_str())));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeApplicationId(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, BasicCluster, writeLocationAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jstring value)
+JNI_METHOD(void, ApplicationBasicCluster, reportApplicationIdAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err            = CHIP_NO_ERROR;
-    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    ApplicationBasicCluster * cppCluster = reinterpret_cast<ApplicationBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    JniUtfString valueStr(env, value);
-    err = cppCluster->WriteAttributeLocation(onSuccess->Cancel(), onFailure->Cancel(),
-                                             chip::CharSpan(valueStr.c_str(), strlen(valueStr.c_str())));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeApplicationId(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, BasicCluster, writeLocalConfigDisabledAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jboolean value)
+JNI_METHOD(void, ApplicationBasicCluster, subscribeCatalogVendorIdAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -664,31 +714,47 @@ JNI_METHOD(void, BasicCluster, writeLocalConfigDisabledAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err            = CHIP_NO_ERROR;
-    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    ApplicationBasicCluster * cppCluster = reinterpret_cast<ApplicationBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeLocalConfigDisabled(onSuccess->Cancel(), onFailure->Cancel(), static_cast<bool>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeCatalogVendorId(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, BinaryInputBasicCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+
+JNI_METHOD(void, ApplicationBasicCluster, reportCatalogVendorIdAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    BinaryInputBasicCluster * cppCluster = new BinaryInputBasicCluster();
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    ApplicationBasicCluster * cppCluster = reinterpret_cast<ApplicationBasicCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-JNI_METHOD(void, BinaryInputBasicCluster, writeOutOfServiceAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jboolean value)
+    err = cppCluster->ReportAttributeCatalogVendorId(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ApplicationBasicCluster, subscribeApplicationStatusAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -704,52 +770,45 @@ JNI_METHOD(void, BinaryInputBasicCluster, writeOutOfServiceAttribute)
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
     CHIP_ERROR err                       = CHIP_NO_ERROR;
-    BinaryInputBasicCluster * cppCluster = reinterpret_cast<BinaryInputBasicCluster *>(clusterPtr);
+    ApplicationBasicCluster * cppCluster = reinterpret_cast<ApplicationBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeOutOfService(onSuccess->Cancel(), onFailure->Cancel(), static_cast<bool>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeApplicationStatus(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, BinaryInputBasicCluster, writePresentValueAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jboolean value)
+JNI_METHOD(void, ApplicationBasicCluster, reportApplicationStatusAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
     CHIP_ERROR err                       = CHIP_NO_ERROR;
-    BinaryInputBasicCluster * cppCluster = reinterpret_cast<BinaryInputBasicCluster *>(clusterPtr);
+    ApplicationBasicCluster * cppCluster = reinterpret_cast<ApplicationBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributePresentValue(onSuccess->Cancel(), onFailure->Cancel(), static_cast<bool>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeApplicationStatus(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, BinaryInputBasicCluster, subscribePresentValueAttribute)
+JNI_METHOD(void, ApplicationBasicCluster, subscribeClusterRevisionAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -766,13 +825,13 @@ JNI_METHOD(void, BinaryInputBasicCluster, subscribePresentValueAttribute)
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
     CHIP_ERROR err                       = CHIP_NO_ERROR;
-    BinaryInputBasicCluster * cppCluster = reinterpret_cast<BinaryInputBasicCluster *>(clusterPtr);
+    ApplicationBasicCluster * cppCluster = reinterpret_cast<ApplicationBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributePresentValue(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
-                                                     static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -781,31 +840,83 @@ JNI_METHOD(void, BinaryInputBasicCluster, subscribePresentValueAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, BinaryInputBasicCluster, reportPresentValueAttribute)
+JNI_METHOD(void, ApplicationBasicCluster, reportClusterRevisionAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPBooleanAttributeCallback, void (*)(CHIPBooleanAttributeCallback *)> onReport(
-        Platform::New<CHIPBooleanAttributeCallback>(callback, true), Platform::Delete<CHIPBooleanAttributeCallback>);
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
     CHIP_ERROR err                       = CHIP_NO_ERROR;
-    BinaryInputBasicCluster * cppCluster = reinterpret_cast<BinaryInputBasicCluster *>(clusterPtr);
+    ApplicationBasicCluster * cppCluster = reinterpret_cast<ApplicationBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributePresentValue(onReport->Cancel());
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
+JNI_METHOD(jlong, ApplicationLauncherCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    ApplicationLauncherCluster * cppCluster = new ApplicationLauncherCluster();
 
-JNI_METHOD(void, BinaryInputBasicCluster, subscribeStatusFlagsAttribute)
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, ApplicationLauncherCluster, launchApp)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jstring data, jobject catalogVendorId, jstring applicationId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ApplicationLauncherCluster * cppCluster;
+
+    chip::app::Clusters::ApplicationLauncher::Commands::LaunchApp::Type request;
+
+    request.data = chip::JniUtfString(env, static_cast<jstring>(data)).charSpan();
+    request.catalogVendorId =
+        static_cast<decltype(request.catalogVendorId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(catalogVendorId));
+    request.applicationId = chip::JniUtfString(env, static_cast<jstring>(applicationId)).charSpan();
+
+    std::unique_ptr<CHIPApplicationLauncherClusterLaunchAppResponseCallback,
+                    void (*)(CHIPApplicationLauncherClusterLaunchAppResponseCallback *)>
+        onSuccess(Platform::New<CHIPApplicationLauncherClusterLaunchAppResponseCallback>(callback),
+                  Platform::Delete<CHIPApplicationLauncherClusterLaunchAppResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<ApplicationLauncherCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPApplicationLauncherClusterLaunchAppResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ApplicationLauncherCluster, subscribeCatalogVendorIdAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -821,14 +932,14 @@ JNI_METHOD(void, BinaryInputBasicCluster, subscribeStatusFlagsAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                       = CHIP_NO_ERROR;
-    BinaryInputBasicCluster * cppCluster = reinterpret_cast<BinaryInputBasicCluster *>(clusterPtr);
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    ApplicationLauncherCluster * cppCluster = reinterpret_cast<ApplicationLauncherCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeStatusFlags(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
-                                                    static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeCatalogVendorId(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -837,7 +948,7 @@ JNI_METHOD(void, BinaryInputBasicCluster, subscribeStatusFlagsAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, BinaryInputBasicCluster, reportStatusFlagsAttribute)
+JNI_METHOD(void, ApplicationLauncherCluster, reportCatalogVendorIdAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
@@ -847,124 +958,75 @@ JNI_METHOD(void, BinaryInputBasicCluster, reportStatusFlagsAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                       = CHIP_NO_ERROR;
-    BinaryInputBasicCluster * cppCluster = reinterpret_cast<BinaryInputBasicCluster *>(clusterPtr);
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    ApplicationLauncherCluster * cppCluster = reinterpret_cast<ApplicationLauncherCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeStatusFlags(onReport->Cancel());
+    err = cppCluster->ReportAttributeCatalogVendorId(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-JNI_METHOD(jlong, BindingCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    BindingCluster * cppCluster = new BindingCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(void, BindingCluster, bind)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject nodeId, jobject groupId, jobject endpointId,
- jobject clusterId)
+JNI_METHOD(void, ApplicationLauncherCluster, subscribeApplicationIdAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    BindingCluster * cppCluster;
-
-    chip::app::Clusters::Binding::Commands::Bind::Type request;
-
-    request.nodeId  = static_cast<decltype(request.nodeId)>(chip::JniReferences::GetInstance().LongToPrimitive(nodeId));
-    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
-    request.endpointId =
-        static_cast<decltype(request.endpointId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(endpointId));
-    request.clusterId = static_cast<decltype(request.clusterId)>(chip::JniReferences::GetInstance().LongToPrimitive(clusterId));
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<BindingCluster *>(clusterPtr);
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    ApplicationLauncherCluster * cppCluster = reinterpret_cast<ApplicationLauncherCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeApplicationId(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, BindingCluster, unbind)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject nodeId, jobject groupId, jobject endpointId,
- jobject clusterId)
+
+JNI_METHOD(void, ApplicationLauncherCluster, reportApplicationIdAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    BindingCluster * cppCluster;
-
-    chip::app::Clusters::Binding::Commands::Unbind::Type request;
-
-    request.nodeId  = static_cast<decltype(request.nodeId)>(chip::JniReferences::GetInstance().LongToPrimitive(nodeId));
-    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
-    request.endpointId =
-        static_cast<decltype(request.endpointId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(endpointId));
-    request.clusterId = static_cast<decltype(request.clusterId)>(chip::JniReferences::GetInstance().LongToPrimitive(clusterId));
-
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<BindingCluster *>(clusterPtr);
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    ApplicationLauncherCluster * cppCluster = reinterpret_cast<ApplicationLauncherCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributeApplicationId(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
-
-    onSuccess.release();
-    onFailure.release();
-}
-JNI_METHOD(jlong, BooleanStateCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    BooleanStateCluster * cppCluster = new BooleanStateCluster();
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
+    onReport.release();
 }
-
-JNI_METHOD(void, BooleanStateCluster, subscribeStateValueAttribute)
+JNI_METHOD(void, ApplicationLauncherCluster, subscribeClusterRevisionAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -980,14 +1042,14 @@ JNI_METHOD(void, BooleanStateCluster, subscribeStateValueAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    BooleanStateCluster * cppCluster = reinterpret_cast<BooleanStateCluster *>(clusterPtr);
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    ApplicationLauncherCluster * cppCluster = reinterpret_cast<ApplicationLauncherCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeStateValue(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
-                                                   static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -996,50 +1058,49 @@ JNI_METHOD(void, BooleanStateCluster, subscribeStateValueAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, BooleanStateCluster, reportStateValueAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ApplicationLauncherCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPBooleanAttributeCallback, void (*)(CHIPBooleanAttributeCallback *)> onReport(
-        Platform::New<CHIPBooleanAttributeCallback>(callback, true), Platform::Delete<CHIPBooleanAttributeCallback>);
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    BooleanStateCluster * cppCluster = reinterpret_cast<BooleanStateCluster *>(clusterPtr);
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    ApplicationLauncherCluster * cppCluster = reinterpret_cast<ApplicationLauncherCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeStateValue(onReport->Cancel());
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-JNI_METHOD(jlong, BridgedActionsCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+JNI_METHOD(jlong, AudioOutputCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
 {
     chip::DeviceLayer::StackLock lock;
-    BridgedActionsCluster * cppCluster = new BridgedActionsCluster();
+    AudioOutputCluster * cppCluster = new AudioOutputCluster();
 
     cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
     return reinterpret_cast<jlong>(cppCluster);
 }
 
-JNI_METHOD(void, BridgedActionsCluster, disableAction)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID)
+JNI_METHOD(void, AudioOutputCluster, renameOutput)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject index, jstring name)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    BridgedActionsCluster * cppCluster;
+    AudioOutputCluster * cppCluster;
 
-    chip::app::Clusters::BridgedActions::Commands::DisableAction::Type request;
+    chip::app::Clusters::AudioOutput::Commands::RenameOutput::Type request;
 
-    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
-    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
-    request.invokeID = chip::Optional<uint32_t>(
-        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
+    request.index = static_cast<decltype(request.index)>(chip::JniReferences::GetInstance().IntegerToPrimitive(index));
+    request.name  = chip::JniUtfString(env, static_cast<jstring>(name)).charSpan();
 
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
@@ -1052,7 +1113,7 @@ JNI_METHOD(void, BridgedActionsCluster, disableAction)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<AudioOutputCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
@@ -1068,20 +1129,15 @@ JNI_METHOD(void, BridgedActionsCluster, disableAction)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, BridgedActionsCluster, disableActionWithDuration)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID, jobject duration)
+JNI_METHOD(void, AudioOutputCluster, selectOutput)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject index)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    BridgedActionsCluster * cppCluster;
+    AudioOutputCluster * cppCluster;
 
-    chip::app::Clusters::BridgedActions::Commands::DisableActionWithDuration::Type request;
+    chip::app::Clusters::AudioOutput::Commands::SelectOutput::Type request;
 
-    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
-    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
-    request.invokeID = chip::Optional<uint32_t>(
-        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
-    request.duration = static_cast<decltype(request.duration)>(chip::JniReferences::GetInstance().LongToPrimitive(duration));
+    request.index = static_cast<decltype(request.index)>(chip::JniReferences::GetInstance().IntegerToPrimitive(index));
 
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
@@ -1094,7 +1150,7 @@ JNI_METHOD(void, BridgedActionsCluster, disableActionWithDuration)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<AudioOutputCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
@@ -1110,145 +1166,135 @@ JNI_METHOD(void, BridgedActionsCluster, disableActionWithDuration)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, BridgedActionsCluster, enableAction)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID)
+JNI_METHOD(void, AudioOutputCluster, subscribeCurrentAudioOutputAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    BridgedActionsCluster * cppCluster;
-
-    chip::app::Clusters::BridgedActions::Commands::EnableAction::Type request;
-
-    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
-    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
-    request.invokeID = chip::Optional<uint32_t>(
-        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    AudioOutputCluster * cppCluster = reinterpret_cast<AudioOutputCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeCurrentAudioOutput(onSuccess->Cancel(), onFailure->Cancel(),
+                                                           static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, BridgedActionsCluster, enableActionWithDuration)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID, jobject duration)
+
+JNI_METHOD(void, AudioOutputCluster, reportCurrentAudioOutputAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    BridgedActionsCluster * cppCluster;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::BridgedActions::Commands::EnableActionWithDuration::Type request;
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    AudioOutputCluster * cppCluster = reinterpret_cast<AudioOutputCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
-    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
-    request.invokeID = chip::Optional<uint32_t>(
-        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
-    request.duration = static_cast<decltype(request.duration)>(chip::JniReferences::GetInstance().LongToPrimitive(duration));
+    err = cppCluster->ReportAttributeCurrentAudioOutput(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, AudioOutputCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    AudioOutputCluster * cppCluster = reinterpret_cast<AudioOutputCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, BridgedActionsCluster, instantAction)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID)
+
+JNI_METHOD(void, AudioOutputCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    BridgedActionsCluster * cppCluster;
-
-    chip::app::Clusters::BridgedActions::Commands::InstantAction::Type request;
-
-    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
-    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
-    request.invokeID = chip::Optional<uint32_t>(
-        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
-
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    AudioOutputCluster * cppCluster = reinterpret_cast<AudioOutputCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-JNI_METHOD(void, BridgedActionsCluster, instantActionWithTransition)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID, jobject transitionTime)
+JNI_METHOD(jlong, BarrierControlCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    BarrierControlCluster * cppCluster = new BarrierControlCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, BarrierControlCluster, barrierControlGoToPercent)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject percentOpen)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    BridgedActionsCluster * cppCluster;
+    BarrierControlCluster * cppCluster;
 
-    chip::app::Clusters::BridgedActions::Commands::InstantActionWithTransition::Type request;
+    chip::app::Clusters::BarrierControl::Commands::BarrierControlGoToPercent::Type request;
 
-    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
-    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
-    request.invokeID = chip::Optional<uint32_t>(
-        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
-    request.transitionTime =
-        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+    request.percentOpen =
+        static_cast<decltype(request.percentOpen)>(chip::JniReferences::GetInstance().IntegerToPrimitive(percentOpen));
 
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
@@ -1261,7 +1307,7 @@ JNI_METHOD(void, BridgedActionsCluster, instantActionWithTransition)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<BarrierControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
@@ -1277,19 +1323,13 @@ JNI_METHOD(void, BridgedActionsCluster, instantActionWithTransition)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, BridgedActionsCluster, pauseAction)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID)
+JNI_METHOD(void, BarrierControlCluster, barrierControlStop)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    BridgedActionsCluster * cppCluster;
-
-    chip::app::Clusters::BridgedActions::Commands::PauseAction::Type request;
+    BarrierControlCluster * cppCluster;
 
-    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
-    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
-    request.invokeID = chip::Optional<uint32_t>(
-        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
+    chip::app::Clusters::BarrierControl::Commands::BarrierControlStop::Type request;
 
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
@@ -1302,7 +1342,7 @@ JNI_METHOD(void, BridgedActionsCluster, pauseAction)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<BarrierControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
@@ -1318,252 +1358,297 @@ JNI_METHOD(void, BridgedActionsCluster, pauseAction)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, BridgedActionsCluster, pauseActionWithDuration)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID, jobject duration)
+JNI_METHOD(void, BarrierControlCluster, subscribeBarrierMovingStateAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    BridgedActionsCluster * cppCluster;
-
-    chip::app::Clusters::BridgedActions::Commands::PauseActionWithDuration::Type request;
-
-    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
-    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
-    request.invokeID = chip::Optional<uint32_t>(
-        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
-    request.duration = static_cast<decltype(request.duration)>(chip::JniReferences::GetInstance().LongToPrimitive(duration));
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    BarrierControlCluster * cppCluster = reinterpret_cast<BarrierControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeBarrierMovingState(onSuccess->Cancel(), onFailure->Cancel(),
+                                                           static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, BridgedActionsCluster, resumeAction)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID)
+
+JNI_METHOD(void, BarrierControlCluster, reportBarrierMovingStateAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    BridgedActionsCluster * cppCluster;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::BridgedActions::Commands::ResumeAction::Type request;
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    BarrierControlCluster * cppCluster = reinterpret_cast<BarrierControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
-    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
-    request.invokeID = chip::Optional<uint32_t>(
-        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
+    err = cppCluster->ReportAttributeBarrierMovingState(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, BarrierControlCluster, subscribeBarrierSafetyStatusAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    BarrierControlCluster * cppCluster = reinterpret_cast<BarrierControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeBarrierSafetyStatus(onSuccess->Cancel(), onFailure->Cancel(),
+                                                            static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, BridgedActionsCluster, startAction)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID)
+
+JNI_METHOD(void, BarrierControlCluster, reportBarrierSafetyStatusAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    BridgedActionsCluster * cppCluster;
-
-    chip::app::Clusters::BridgedActions::Commands::StartAction::Type request;
-
-    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
-    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
-    request.invokeID = chip::Optional<uint32_t>(
-        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    BarrierControlCluster * cppCluster = reinterpret_cast<BarrierControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeBarrierSafetyStatus(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, BarrierControlCluster, subscribeBarrierCapabilitiesAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    BarrierControlCluster * cppCluster = reinterpret_cast<BarrierControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeBarrierCapabilities(onSuccess->Cancel(), onFailure->Cancel(),
+                                                            static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, BridgedActionsCluster, startActionWithDuration)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID, jobject duration)
+
+JNI_METHOD(void, BarrierControlCluster, reportBarrierCapabilitiesAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    BridgedActionsCluster * cppCluster;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::BridgedActions::Commands::StartActionWithDuration::Type request;
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    BarrierControlCluster * cppCluster = reinterpret_cast<BarrierControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
-    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
-    request.invokeID = chip::Optional<uint32_t>(
-        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
-    request.duration = static_cast<decltype(request.duration)>(chip::JniReferences::GetInstance().LongToPrimitive(duration));
+    err = cppCluster->ReportAttributeBarrierCapabilities(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, BarrierControlCluster, subscribeBarrierPositionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    BarrierControlCluster * cppCluster = reinterpret_cast<BarrierControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeBarrierPosition(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, BridgedActionsCluster, stopAction)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID)
+
+JNI_METHOD(void, BarrierControlCluster, reportBarrierPositionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    BridgedActionsCluster * cppCluster;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::BridgedActions::Commands::StopAction::Type request;
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    BarrierControlCluster * cppCluster = reinterpret_cast<BarrierControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
-    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
-    request.invokeID = chip::Optional<uint32_t>(
-        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
+    err = cppCluster->ReportAttributeBarrierPosition(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, BarrierControlCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    BarrierControlCluster * cppCluster = reinterpret_cast<BarrierControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, BridgedDeviceBasicInformationCluster, initWithDevice)
-(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+
+JNI_METHOD(void, BarrierControlCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    BridgedDeviceBasicInformationCluster * cppCluster = new BridgedDeviceBasicInformationCluster();
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    BarrierControlCluster * cppCluster = reinterpret_cast<BarrierControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-JNI_METHOD(jlong, ColorControlCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, BasicCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
 {
     chip::DeviceLayer::StackLock lock;
-    ColorControlCluster * cppCluster = new ColorControlCluster();
+    BasicCluster * cppCluster = new BasicCluster();
 
     cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
     return reinterpret_cast<jlong>(cppCluster);
 }
 
-JNI_METHOD(void, ColorControlCluster, colorLoopSet)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject updateFlags, jobject action, jobject direction,
- jobject time, jobject startHue, jobject optionsMask, jobject optionsOverride)
+JNI_METHOD(void, BasicCluster, mfgSpecificPing)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster;
-
-    chip::app::Clusters::ColorControl::Commands::ColorLoopSet::Type request;
+    BasicCluster * cppCluster;
 
-    request.updateFlags =
-        static_cast<decltype(request.updateFlags)>(chip::JniReferences::GetInstance().IntegerToPrimitive(updateFlags));
-    request.action    = static_cast<decltype(request.action)>(chip::JniReferences::GetInstance().IntegerToPrimitive(action));
-    request.direction = static_cast<decltype(request.direction)>(chip::JniReferences::GetInstance().IntegerToPrimitive(direction));
-    request.time      = static_cast<decltype(request.time)>(chip::JniReferences::GetInstance().IntegerToPrimitive(time));
-    request.startHue  = static_cast<decltype(request.startHue)>(chip::JniReferences::GetInstance().IntegerToPrimitive(startHue));
-    request.optionsMask =
-        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
-    request.optionsOverride =
-        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
+    chip::app::Clusters::Basic::Commands::MfgSpecificPing::Type request;
 
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
@@ -1576,7 +1661,7 @@ JNI_METHOD(void, ColorControlCluster, colorLoopSet)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
@@ -1592,833 +1677,722 @@ JNI_METHOD(void, ColorControlCluster, colorLoopSet)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ColorControlCluster, enhancedMoveHue)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject moveMode, jobject rate, jobject optionsMask,
- jobject optionsOverride)
+JNI_METHOD(void, BasicCluster, subscribeInteractionModelVersionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster;
-
-    chip::app::Clusters::ColorControl::Commands::EnhancedMoveHue::Type request;
-
-    request.moveMode = static_cast<decltype(request.moveMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(moveMode));
-    request.rate     = static_cast<decltype(request.rate)>(chip::JniReferences::GetInstance().IntegerToPrimitive(rate));
-    request.optionsMask =
-        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
-    request.optionsOverride =
-        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeInteractionModelVersion(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ColorControlCluster, enhancedMoveToHue)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject enhancedHue, jobject direction, jobject transitionTime,
- jobject optionsMask, jobject optionsOverride)
+
+JNI_METHOD(void, BasicCluster, reportInteractionModelVersionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster;
-
-    chip::app::Clusters::ColorControl::Commands::EnhancedMoveToHue::Type request;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    request.enhancedHue =
-        static_cast<decltype(request.enhancedHue)>(chip::JniReferences::GetInstance().IntegerToPrimitive(enhancedHue));
-    request.direction = static_cast<decltype(request.direction)>(chip::JniReferences::GetInstance().IntegerToPrimitive(direction));
-    request.transitionTime =
-        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
-    request.optionsMask =
-        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
-    request.optionsOverride =
-        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeInteractionModelVersion(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, BasicCluster, subscribeVendorNameAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeVendorName(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ColorControlCluster, enhancedMoveToHueAndSaturation)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject enhancedHue, jobject saturation, jobject transitionTime,
- jobject optionsMask, jobject optionsOverride)
+
+JNI_METHOD(void, BasicCluster, reportVendorNameAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster;
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::ColorControl::Commands::EnhancedMoveToHueAndSaturation::Type request;
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.enhancedHue =
-        static_cast<decltype(request.enhancedHue)>(chip::JniReferences::GetInstance().IntegerToPrimitive(enhancedHue));
-    request.saturation =
-        static_cast<decltype(request.saturation)>(chip::JniReferences::GetInstance().IntegerToPrimitive(saturation));
-    request.transitionTime =
-        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
-    request.optionsMask =
-        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
-    request.optionsOverride =
-        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
+    err = cppCluster->ReportAttributeVendorName(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, BasicCluster, subscribeVendorIDAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeVendorID(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                 static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ColorControlCluster, enhancedStepHue)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject stepMode, jobject stepSize, jobject transitionTime,
- jobject optionsMask, jobject optionsOverride)
+
+JNI_METHOD(void, BasicCluster, reportVendorIDAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::ColorControl::Commands::EnhancedStepHue::Type request;
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.stepMode = static_cast<decltype(request.stepMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepMode));
-    request.stepSize = static_cast<decltype(request.stepSize)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepSize));
-    request.transitionTime =
-        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
-    request.optionsMask =
-        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
-    request.optionsOverride =
-        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
+    err = cppCluster->ReportAttributeVendorID(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, BasicCluster, subscribeProductNameAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeProductName(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ColorControlCluster, moveColor)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject rateX, jobject rateY, jobject optionsMask,
- jobject optionsOverride)
+
+JNI_METHOD(void, BasicCluster, reportProductNameAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster;
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::ColorControl::Commands::MoveColor::Type request;
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.rateX = static_cast<decltype(request.rateX)>(chip::JniReferences::GetInstance().IntegerToPrimitive(rateX));
-    request.rateY = static_cast<decltype(request.rateY)>(chip::JniReferences::GetInstance().IntegerToPrimitive(rateY));
-    request.optionsMask =
-        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
-    request.optionsOverride =
-        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
+    err = cppCluster->ReportAttributeProductName(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, BasicCluster, subscribeProductIDAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeProductID(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ColorControlCluster, moveColorTemperature)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject moveMode, jobject rate, jobject colorTemperatureMinimum,
- jobject colorTemperatureMaximum, jobject optionsMask, jobject optionsOverride)
+
+JNI_METHOD(void, BasicCluster, reportProductIDAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::ColorControl::Commands::MoveColorTemperature::Type request;
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.moveMode = static_cast<decltype(request.moveMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(moveMode));
-    request.rate     = static_cast<decltype(request.rate)>(chip::JniReferences::GetInstance().IntegerToPrimitive(rate));
-    request.colorTemperatureMinimum = static_cast<decltype(request.colorTemperatureMinimum)>(
-        chip::JniReferences::GetInstance().IntegerToPrimitive(colorTemperatureMinimum));
-    request.colorTemperatureMaximum = static_cast<decltype(request.colorTemperatureMaximum)>(
-        chip::JniReferences::GetInstance().IntegerToPrimitive(colorTemperatureMaximum));
-    request.optionsMask =
-        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
-    request.optionsOverride =
-        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
+    err = cppCluster->ReportAttributeProductID(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
 
+JNI_METHOD(void, BasicCluster, writeUserLabelAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jstring value)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
-    VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+    JniUtfString valueStr(env, value);
+    err = cppCluster->WriteAttributeUserLabel(onSuccess->Cancel(), onFailure->Cancel(),
+                                              chip::CharSpan(valueStr.c_str(), strlen(valueStr.c_str())));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ColorControlCluster, moveHue)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject moveMode, jobject rate, jobject optionsMask,
- jobject optionsOverride)
+JNI_METHOD(void, BasicCluster, subscribeUserLabelAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster;
-
-    chip::app::Clusters::ColorControl::Commands::MoveHue::Type request;
-
-    request.moveMode = static_cast<decltype(request.moveMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(moveMode));
-    request.rate     = static_cast<decltype(request.rate)>(chip::JniReferences::GetInstance().IntegerToPrimitive(rate));
-    request.optionsMask =
-        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
-    request.optionsOverride =
-        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeUserLabel(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ColorControlCluster, moveSaturation)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject moveMode, jobject rate, jobject optionsMask,
- jobject optionsOverride)
+
+JNI_METHOD(void, BasicCluster, reportUserLabelAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster;
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::ColorControl::Commands::MoveSaturation::Type request;
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.moveMode = static_cast<decltype(request.moveMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(moveMode));
-    request.rate     = static_cast<decltype(request.rate)>(chip::JniReferences::GetInstance().IntegerToPrimitive(rate));
-    request.optionsMask =
-        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
-    request.optionsOverride =
-        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
+    err = cppCluster->ReportAttributeUserLabel(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
 
+JNI_METHOD(void, BasicCluster, writeLocationAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jstring value)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
-    VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+    JniUtfString valueStr(env, value);
+    err = cppCluster->WriteAttributeLocation(onSuccess->Cancel(), onFailure->Cancel(),
+                                             chip::CharSpan(valueStr.c_str(), strlen(valueStr.c_str())));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ColorControlCluster, moveToColor)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject colorX, jobject colorY, jobject transitionTime,
- jobject optionsMask, jobject optionsOverride)
+JNI_METHOD(void, BasicCluster, subscribeLocationAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster;
-
-    chip::app::Clusters::ColorControl::Commands::MoveToColor::Type request;
-
-    request.colorX = static_cast<decltype(request.colorX)>(chip::JniReferences::GetInstance().IntegerToPrimitive(colorX));
-    request.colorY = static_cast<decltype(request.colorY)>(chip::JniReferences::GetInstance().IntegerToPrimitive(colorY));
-    request.transitionTime =
-        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
-    request.optionsMask =
-        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
-    request.optionsOverride =
-        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeLocation(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                 static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ColorControlCluster, moveToColorTemperature)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject colorTemperature, jobject transitionTime,
- jobject optionsMask, jobject optionsOverride)
+
+JNI_METHOD(void, BasicCluster, reportLocationAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster;
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::ColorControl::Commands::MoveToColorTemperature::Type request;
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.colorTemperature =
-        static_cast<decltype(request.colorTemperature)>(chip::JniReferences::GetInstance().IntegerToPrimitive(colorTemperature));
-    request.transitionTime =
-        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
-    request.optionsMask =
-        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
-    request.optionsOverride =
-        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
+    err = cppCluster->ReportAttributeLocation(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, BasicCluster, subscribeHardwareVersionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeHardwareVersion(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ColorControlCluster, moveToHue)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject hue, jobject direction, jobject transitionTime,
- jobject optionsMask, jobject optionsOverride)
+
+JNI_METHOD(void, BasicCluster, reportHardwareVersionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::ColorControl::Commands::MoveToHue::Type request;
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.hue       = static_cast<decltype(request.hue)>(chip::JniReferences::GetInstance().IntegerToPrimitive(hue));
-    request.direction = static_cast<decltype(request.direction)>(chip::JniReferences::GetInstance().IntegerToPrimitive(direction));
-    request.transitionTime =
-        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
-    request.optionsMask =
-        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
-    request.optionsOverride =
-        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
+    err = cppCluster->ReportAttributeHardwareVersion(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, BasicCluster, subscribeHardwareVersionStringAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeHardwareVersionString(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ColorControlCluster, moveToHueAndSaturation)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject hue, jobject saturation, jobject transitionTime,
- jobject optionsMask, jobject optionsOverride)
+
+JNI_METHOD(void, BasicCluster, reportHardwareVersionStringAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster;
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::ColorControl::Commands::MoveToHueAndSaturation::Type request;
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.hue = static_cast<decltype(request.hue)>(chip::JniReferences::GetInstance().IntegerToPrimitive(hue));
-    request.saturation =
-        static_cast<decltype(request.saturation)>(chip::JniReferences::GetInstance().IntegerToPrimitive(saturation));
-    request.transitionTime =
-        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
-    request.optionsMask =
-        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
-    request.optionsOverride =
-        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
+    err = cppCluster->ReportAttributeHardwareVersionString(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, BasicCluster, subscribeSoftwareVersionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeSoftwareVersion(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ColorControlCluster, moveToSaturation)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject saturation, jobject transitionTime, jobject optionsMask,
- jobject optionsOverride)
+
+JNI_METHOD(void, BasicCluster, reportSoftwareVersionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::ColorControl::Commands::MoveToSaturation::Type request;
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.saturation =
-        static_cast<decltype(request.saturation)>(chip::JniReferences::GetInstance().IntegerToPrimitive(saturation));
-    request.transitionTime =
-        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
-    request.optionsMask =
-        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
-    request.optionsOverride =
-        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
+    err = cppCluster->ReportAttributeSoftwareVersion(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, BasicCluster, subscribeSoftwareVersionStringAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeSoftwareVersionString(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ColorControlCluster, stepColor)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject stepX, jobject stepY, jobject transitionTime,
- jobject optionsMask, jobject optionsOverride)
+
+JNI_METHOD(void, BasicCluster, reportSoftwareVersionStringAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster;
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::ColorControl::Commands::StepColor::Type request;
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.stepX = static_cast<decltype(request.stepX)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepX));
-    request.stepY = static_cast<decltype(request.stepY)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepY));
-    request.transitionTime =
-        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
-    request.optionsMask =
-        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
-    request.optionsOverride =
-        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
+    err = cppCluster->ReportAttributeSoftwareVersionString(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, BasicCluster, subscribeManufacturingDateAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeManufacturingDate(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ColorControlCluster, stepColorTemperature)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject stepMode, jobject stepSize, jobject transitionTime,
- jobject colorTemperatureMinimum, jobject colorTemperatureMaximum, jobject optionsMask, jobject optionsOverride)
+
+JNI_METHOD(void, BasicCluster, reportManufacturingDateAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster;
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::ColorControl::Commands::StepColorTemperature::Type request;
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.stepMode = static_cast<decltype(request.stepMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepMode));
-    request.stepSize = static_cast<decltype(request.stepSize)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepSize));
-    request.transitionTime =
-        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
-    request.colorTemperatureMinimum = static_cast<decltype(request.colorTemperatureMinimum)>(
-        chip::JniReferences::GetInstance().IntegerToPrimitive(colorTemperatureMinimum));
-    request.colorTemperatureMaximum = static_cast<decltype(request.colorTemperatureMaximum)>(
-        chip::JniReferences::GetInstance().IntegerToPrimitive(colorTemperatureMaximum));
-    request.optionsMask =
-        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
-    request.optionsOverride =
-        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
-
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-
-    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
-    VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
-
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
-    VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
-
-    onSuccess.release();
-    onFailure.release();
-}
-JNI_METHOD(void, ColorControlCluster, stepHue)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject stepMode, jobject stepSize, jobject transitionTime,
- jobject optionsMask, jobject optionsOverride)
-{
-    chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster;
-
-    chip::app::Clusters::ColorControl::Commands::StepHue::Type request;
-
-    request.stepMode = static_cast<decltype(request.stepMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepMode));
-    request.stepSize = static_cast<decltype(request.stepSize)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepSize));
-    request.transitionTime =
-        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
-    request.optionsMask =
-        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
-    request.optionsOverride =
-        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
-
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-
-    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
-    VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
-
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
-    VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
-
-    onSuccess.release();
-    onFailure.release();
-}
-JNI_METHOD(void, ColorControlCluster, stepSaturation)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject stepMode, jobject stepSize, jobject transitionTime,
- jobject optionsMask, jobject optionsOverride)
-{
-    chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster;
-
-    chip::app::Clusters::ColorControl::Commands::StepSaturation::Type request;
-
-    request.stepMode = static_cast<decltype(request.stepMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepMode));
-    request.stepSize = static_cast<decltype(request.stepSize)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepSize));
-    request.transitionTime =
-        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
-    request.optionsMask =
-        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
-    request.optionsOverride =
-        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
-
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-
-    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
-    VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
-
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
-    VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
-
-    onSuccess.release();
-    onFailure.release();
-}
-JNI_METHOD(void, ColorControlCluster, stopMoveStep)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject optionsMask, jobject optionsOverride)
-{
-    chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster;
-
-    chip::app::Clusters::ColorControl::Commands::StopMoveStep::Type request;
-
-    request.optionsMask =
-        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
-    request.optionsOverride =
-        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
-
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-
-    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
-    VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
-
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributeManufacturingDate(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, ColorControlCluster, subscribeCurrentHueAttribute)
+JNI_METHOD(void, BasicCluster, subscribePartNumberAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -2434,13 +2408,13 @@ JNI_METHOD(void, ColorControlCluster, subscribeCurrentHueAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeCurrentHue(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+    err = cppCluster->SubscribeAttributePartNumber(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
                                                    static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
@@ -2450,30 +2424,29 @@ JNI_METHOD(void, ColorControlCluster, subscribeCurrentHueAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, ColorControlCluster, reportCurrentHueAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, BasicCluster, reportPartNumberAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
-        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeCurrentHue(onReport->Cancel());
+    err = cppCluster->ReportAttributePartNumber(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-
-JNI_METHOD(void, ColorControlCluster, subscribeCurrentSaturationAttribute)
+JNI_METHOD(void, BasicCluster, subscribeProductURLAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -2489,14 +2462,14 @@ JNI_METHOD(void, ColorControlCluster, subscribeCurrentSaturationAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeCurrentSaturation(onSuccess->Cancel(), onFailure->Cancel(),
-                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeProductURL(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -2505,31 +2478,29 @@ JNI_METHOD(void, ColorControlCluster, subscribeCurrentSaturationAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, ColorControlCluster, reportCurrentSaturationAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, BasicCluster, reportProductURLAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
-        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeCurrentSaturation(onReport->Cancel());
+    err = cppCluster->ReportAttributeProductURL(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-
-JNI_METHOD(void, ColorControlCluster, subscribeCurrentXAttribute)
+JNI_METHOD(void, BasicCluster, subscribeProductLabelAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -2545,14 +2516,14 @@ JNI_METHOD(void, ColorControlCluster, subscribeCurrentXAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeCurrentX(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
-                                                 static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeProductLabel(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -2561,30 +2532,29 @@ JNI_METHOD(void, ColorControlCluster, subscribeCurrentXAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, ColorControlCluster, reportCurrentXAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, BasicCluster, reportProductLabelAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
-        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeCurrentX(onReport->Cancel());
+    err = cppCluster->ReportAttributeProductLabel(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-
-JNI_METHOD(void, ColorControlCluster, subscribeCurrentYAttribute)
+JNI_METHOD(void, BasicCluster, subscribeSerialNumberAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -2600,14 +2570,14 @@ JNI_METHOD(void, ColorControlCluster, subscribeCurrentYAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeCurrentY(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
-                                                 static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeSerialNumber(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -2616,22 +2586,22 @@ JNI_METHOD(void, ColorControlCluster, subscribeCurrentYAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, ColorControlCluster, reportCurrentYAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, BasicCluster, reportSerialNumberAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
-        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeCurrentY(onReport->Cancel());
+    err = cppCluster->ReportAttributeSerialNumber(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
@@ -2639,8 +2609,8 @@ JNI_METHOD(void, ColorControlCluster, reportCurrentYAttribute)(JNIEnv * env, job
     onReport.release();
 }
 
-JNI_METHOD(void, ColorControlCluster, subscribeColorTemperatureAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+JNI_METHOD(void, BasicCluster, writeLocalConfigDisabledAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jboolean value)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -2655,48 +2625,22 @@ JNI_METHOD(void, ColorControlCluster, subscribeColorTemperatureAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeColorTemperature(onSuccess->Cancel(), onFailure->Cancel(),
-                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
-    VerifyOrReturn(err == CHIP_NO_ERROR,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error subscribing to attribute", err));
+    err = cppCluster->WriteAttributeLocalConfigDisabled(onSuccess->Cancel(), onFailure->Cancel(), static_cast<bool>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-
-JNI_METHOD(void, ColorControlCluster, reportColorTemperatureAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
-{
-    chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
-        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
-    VerifyOrReturn(onReport.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
-
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
-    VerifyOrReturn(cppCluster != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    err = cppCluster->ReportAttributeColorTemperature(onReport->Cancel());
-    VerifyOrReturn(err == CHIP_NO_ERROR,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error registering for attribute reporting", err));
-
-    onReport.release();
-}
-
-JNI_METHOD(void, ColorControlCluster, writeColorControlOptionsAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, BasicCluster, subscribeLocalConfigDisabledAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -2711,54 +2655,46 @@ JNI_METHOD(void, ColorControlCluster, writeColorControlOptionsAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeColorControlOptions(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeLocalConfigDisabled(onSuccess->Cancel(), onFailure->Cancel(),
+                                                            static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, ColorControlCluster, writeWhitePointXAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, BasicCluster, reportLocalConfigDisabledAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPBooleanAttributeCallback, void (*)(CHIPBooleanAttributeCallback *)> onReport(
+        Platform::New<CHIPBooleanAttributeCallback>(callback, true), Platform::Delete<CHIPBooleanAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeWhitePointX(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeLocalConfigDisabled(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, ColorControlCluster, writeWhitePointYAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, BasicCluster, subscribeReachableAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -2773,54 +2709,46 @@ JNI_METHOD(void, ColorControlCluster, writeWhitePointYAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeWhitePointY(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeReachable(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, ColorControlCluster, writeColorPointRXAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, BasicCluster, reportReachableAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPBooleanAttributeCallback, void (*)(CHIPBooleanAttributeCallback *)> onReport(
+        Platform::New<CHIPBooleanAttributeCallback>(callback, true), Platform::Delete<CHIPBooleanAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeColorPointRX(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeReachable(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, ColorControlCluster, writeColorPointRYAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, BasicCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -2835,54 +2763,55 @@ JNI_METHOD(void, ColorControlCluster, writeColorPointRYAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeColorPointRY(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, ColorControlCluster, writeColorPointRIntensityAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, BasicCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    BasicCluster * cppCluster = reinterpret_cast<BasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeColorPointRIntensity(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
+JNI_METHOD(jlong, BinaryInputBasicCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    BinaryInputBasicCluster * cppCluster = new BinaryInputBasicCluster();
 
-JNI_METHOD(void, ColorControlCluster, writeColorPointGXAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, BinaryInputBasicCluster, writeOutOfServiceAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jboolean value)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -2897,13 +2826,13 @@ JNI_METHOD(void, ColorControlCluster, writeColorPointGXAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    BinaryInputBasicCluster * cppCluster = reinterpret_cast<BinaryInputBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeColorPointGX(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    err = cppCluster->WriteAttributeOutOfService(onSuccess->Cancel(), onFailure->Cancel(), static_cast<bool>(value));
     VerifyOrReturn(
         err == CHIP_NO_ERROR,
         chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
@@ -2911,9 +2840,8 @@ JNI_METHOD(void, ColorControlCluster, writeColorPointGXAttribute)
     onSuccess.release();
     onFailure.release();
 }
-
-JNI_METHOD(void, ColorControlCluster, writeColorPointGYAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, BinaryInputBasicCluster, subscribeOutOfServiceAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -2928,54 +2856,48 @@ JNI_METHOD(void, ColorControlCluster, writeColorPointGYAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    BinaryInputBasicCluster * cppCluster = reinterpret_cast<BinaryInputBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeColorPointGY(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeOutOfService(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, ColorControlCluster, writeColorPointGIntensityAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, BinaryInputBasicCluster, reportOutOfServiceAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPBooleanAttributeCallback, void (*)(CHIPBooleanAttributeCallback *)> onReport(
+        Platform::New<CHIPBooleanAttributeCallback>(callback, true), Platform::Delete<CHIPBooleanAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    BinaryInputBasicCluster * cppCluster = reinterpret_cast<BinaryInputBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeColorPointGIntensity(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeOutOfService(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
 
-JNI_METHOD(void, ColorControlCluster, writeColorPointBXAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, BinaryInputBasicCluster, writePresentValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jboolean value)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -2990,13 +2912,13 @@ JNI_METHOD(void, ColorControlCluster, writeColorPointBXAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    BinaryInputBasicCluster * cppCluster = reinterpret_cast<BinaryInputBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeColorPointBX(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    err = cppCluster->WriteAttributePresentValue(onSuccess->Cancel(), onFailure->Cancel(), static_cast<bool>(value));
     VerifyOrReturn(
         err == CHIP_NO_ERROR,
         chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
@@ -3004,9 +2926,8 @@ JNI_METHOD(void, ColorControlCluster, writeColorPointBXAttribute)
     onSuccess.release();
     onFailure.release();
 }
-
-JNI_METHOD(void, ColorControlCluster, writeColorPointBYAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, BinaryInputBasicCluster, subscribePresentValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -3021,30 +2942,54 @@ JNI_METHOD(void, ColorControlCluster, writeColorPointBYAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    BinaryInputBasicCluster * cppCluster = reinterpret_cast<BinaryInputBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeColorPointBY(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributePresentValue(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, ColorControlCluster, writeColorPointBIntensityAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, BinaryInputBasicCluster, reportPresentValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
+    std::unique_ptr<CHIPBooleanAttributeCallback, void (*)(CHIPBooleanAttributeCallback *)> onReport(
+        Platform::New<CHIPBooleanAttributeCallback>(callback, true), Platform::Delete<CHIPBooleanAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    BinaryInputBasicCluster * cppCluster = reinterpret_cast<BinaryInputBasicCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributePresentValue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, BinaryInputBasicCluster, subscribeStatusFlagsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
@@ -3052,23 +2997,47 @@ JNI_METHOD(void, ColorControlCluster, writeColorPointBIntensityAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    BinaryInputBasicCluster * cppCluster = reinterpret_cast<BinaryInputBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeColorPointBIntensity(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeStatusFlags(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, ColorControlCluster, writeStartUpColorTemperatureMiredsAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, BinaryInputBasicCluster, reportStatusFlagsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    BinaryInputBasicCluster * cppCluster = reinterpret_cast<BinaryInputBasicCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeStatusFlags(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, BinaryInputBasicCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -3083,46 +3052,72 @@ JNI_METHOD(void, ColorControlCluster, writeStartUpColorTemperatureMiredsAttribut
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                   = CHIP_NO_ERROR;
-    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    BinaryInputBasicCluster * cppCluster = reinterpret_cast<BinaryInputBasicCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeStartUpColorTemperatureMireds(onSuccess->Cancel(), onFailure->Cancel(),
-                                                                  static_cast<uint16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, ContentLauncherCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+
+JNI_METHOD(void, BinaryInputBasicCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    ContentLauncherCluster * cppCluster = new ContentLauncherCluster();
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    BinaryInputBasicCluster * cppCluster = reinterpret_cast<BinaryInputBasicCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, BindingCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    BindingCluster * cppCluster = new BindingCluster();
 
     cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
     return reinterpret_cast<jlong>(cppCluster);
 }
 
-JNI_METHOD(void, ContentLauncherCluster, launchContent)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject autoPlay, jstring data)
+JNI_METHOD(void, BindingCluster, bind)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject nodeId, jobject groupId, jobject endpointId,
+ jobject clusterId)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    ContentLauncherCluster * cppCluster;
+    BindingCluster * cppCluster;
 
-    chip::app::Clusters::ContentLauncher::Commands::LaunchContent::Type request;
+    chip::app::Clusters::Binding::Commands::Bind::Type request;
 
-    request.autoPlay = static_cast<decltype(request.autoPlay)>(chip::JniReferences::GetInstance().BooleanToPrimitive(autoPlay));
-    request.data     = chip::JniUtfString(env, static_cast<jstring>(data)).charSpan();
+    request.nodeId  = static_cast<decltype(request.nodeId)>(chip::JniReferences::GetInstance().LongToPrimitive(nodeId));
+    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
+    request.endpointId =
+        static_cast<decltype(request.endpointId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(endpointId));
+    request.clusterId = static_cast<decltype(request.clusterId)>(chip::JniReferences::GetInstance().LongToPrimitive(clusterId));
 
-    std::unique_ptr<CHIPContentLauncherClusterLaunchContentResponseCallback,
-                    void (*)(CHIPContentLauncherClusterLaunchContentResponseCallback *)>
-        onSuccess(Platform::New<CHIPContentLauncherClusterLaunchContentResponseCallback>(callback),
-                  Platform::Delete<CHIPContentLauncherClusterLaunchContentResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -3132,13 +3127,12 @@ JNI_METHOD(void, ContentLauncherCluster, launchContent)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ContentLauncherCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<BindingCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPContentLauncherClusterLaunchContentResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -3149,22 +3143,24 @@ JNI_METHOD(void, ContentLauncherCluster, launchContent)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ContentLauncherCluster, launchURL)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jstring contentURL, jstring displayString)
+JNI_METHOD(void, BindingCluster, unbind)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject nodeId, jobject groupId, jobject endpointId,
+ jobject clusterId)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    ContentLauncherCluster * cppCluster;
+    BindingCluster * cppCluster;
 
-    chip::app::Clusters::ContentLauncher::Commands::LaunchURL::Type request;
+    chip::app::Clusters::Binding::Commands::Unbind::Type request;
 
-    request.contentURL    = chip::JniUtfString(env, static_cast<jstring>(contentURL)).charSpan();
-    request.displayString = chip::JniUtfString(env, static_cast<jstring>(displayString)).charSpan();
+    request.nodeId  = static_cast<decltype(request.nodeId)>(chip::JniReferences::GetInstance().LongToPrimitive(nodeId));
+    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
+    request.endpointId =
+        static_cast<decltype(request.endpointId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(endpointId));
+    request.clusterId = static_cast<decltype(request.clusterId)>(chip::JniReferences::GetInstance().LongToPrimitive(clusterId));
 
-    std::unique_ptr<CHIPContentLauncherClusterLaunchURLResponseCallback,
-                    void (*)(CHIPContentLauncherClusterLaunchURLResponseCallback *)>
-        onSuccess(Platform::New<CHIPContentLauncherClusterLaunchURLResponseCallback>(callback),
-                  Platform::Delete<CHIPContentLauncherClusterLaunchURLResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -3174,13 +3170,12 @@ JNI_METHOD(void, ContentLauncherCluster, launchURL)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ContentLauncherCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<BindingCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPContentLauncherClusterLaunchURLResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -3191,89 +3186,203 @@ JNI_METHOD(void, ContentLauncherCluster, launchURL)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, DescriptorCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+JNI_METHOD(void, BindingCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    DescriptorCluster * cppCluster = new DescriptorCluster();
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err              = CHIP_NO_ERROR;
+    BindingCluster * cppCluster = reinterpret_cast<BindingCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
 }
 
-JNI_METHOD(jlong, DiagnosticLogsCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+JNI_METHOD(void, BindingCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    DiagnosticLogsCluster * cppCluster = new DiagnosticLogsCluster();
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err              = CHIP_NO_ERROR;
+    BindingCluster * cppCluster = reinterpret_cast<BindingCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, BooleanStateCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    BooleanStateCluster * cppCluster = new BooleanStateCluster();
 
     cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
     return reinterpret_cast<jlong>(cppCluster);
 }
 
-JNI_METHOD(void, DiagnosticLogsCluster, retrieveLogsRequest)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject intent, jobject requestedProtocol,
- jbyteArray transferFileDesignator)
+JNI_METHOD(void, BooleanStateCluster, subscribeStateValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    DiagnosticLogsCluster * cppCluster;
-
-    chip::app::Clusters::DiagnosticLogs::Commands::RetrieveLogsRequest::Type request;
-
-    request.intent = static_cast<decltype(request.intent)>(chip::JniReferences::GetInstance().IntegerToPrimitive(intent));
-    request.requestedProtocol =
-        static_cast<decltype(request.requestedProtocol)>(chip::JniReferences::GetInstance().IntegerToPrimitive(requestedProtocol));
-    request.transferFileDesignator = chip::JniByteArray(env, static_cast<jbyteArray>(transferFileDesignator)).byteSpan();
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPDiagnosticLogsClusterRetrieveLogsResponseCallback,
-                    void (*)(CHIPDiagnosticLogsClusterRetrieveLogsResponseCallback *)>
-        onSuccess(Platform::New<CHIPDiagnosticLogsClusterRetrieveLogsResponseCallback>(callback),
-                  Platform::Delete<CHIPDiagnosticLogsClusterRetrieveLogsResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DiagnosticLogsCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    BooleanStateCluster * cppCluster = reinterpret_cast<BooleanStateCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPDiagnosticLogsClusterRetrieveLogsResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeStateValue(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, DoorLockCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+
+JNI_METHOD(void, BooleanStateCluster, reportStateValueAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    DoorLockCluster * cppCluster = new DoorLockCluster();
+    std::unique_ptr<CHIPBooleanAttributeCallback, void (*)(CHIPBooleanAttributeCallback *)> onReport(
+        Platform::New<CHIPBooleanAttributeCallback>(callback, true), Platform::Delete<CHIPBooleanAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    BooleanStateCluster * cppCluster = reinterpret_cast<BooleanStateCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeStateValue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, BooleanStateCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    BooleanStateCluster * cppCluster = reinterpret_cast<BooleanStateCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, BooleanStateCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    BooleanStateCluster * cppCluster = reinterpret_cast<BooleanStateCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, BridgedActionsCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    BridgedActionsCluster * cppCluster = new BridgedActionsCluster();
 
     cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
     return reinterpret_cast<jlong>(cppCluster);
 }
 
-JNI_METHOD(void, DoorLockCluster, clearAllPins)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, BridgedActionsCluster, disableAction)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
+    BridgedActionsCluster * cppCluster;
 
-    chip::app::Clusters::DoorLock::Commands::ClearAllPins::Type request;
+    chip::app::Clusters::BridgedActions::Commands::DisableAction::Type request;
 
-    std::unique_ptr<CHIPDoorLockClusterClearAllPinsResponseCallback, void (*)(CHIPDoorLockClusterClearAllPinsResponseCallback *)>
-        onSuccess(Platform::New<CHIPDoorLockClusterClearAllPinsResponseCallback>(callback),
-                  Platform::Delete<CHIPDoorLockClusterClearAllPinsResponseCallback>);
+    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
+    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
+    request.invokeID = chip::Optional<uint32_t>(
+        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -3283,13 +3392,12 @@ JNI_METHOD(void, DoorLockCluster, clearAllPins)(JNIEnv * env, jobject self, jlon
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPDoorLockClusterClearAllPinsResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -3300,17 +3408,23 @@ JNI_METHOD(void, DoorLockCluster, clearAllPins)(JNIEnv * env, jobject self, jlon
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, clearAllRfids)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, BridgedActionsCluster, disableActionWithDuration)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID, jobject duration)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
+    BridgedActionsCluster * cppCluster;
 
-    chip::app::Clusters::DoorLock::Commands::ClearAllRfids::Type request;
+    chip::app::Clusters::BridgedActions::Commands::DisableActionWithDuration::Type request;
 
-    std::unique_ptr<CHIPDoorLockClusterClearAllRfidsResponseCallback, void (*)(CHIPDoorLockClusterClearAllRfidsResponseCallback *)>
-        onSuccess(Platform::New<CHIPDoorLockClusterClearAllRfidsResponseCallback>(callback),
-                  Platform::Delete<CHIPDoorLockClusterClearAllRfidsResponseCallback>);
+    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
+    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
+    request.invokeID = chip::Optional<uint32_t>(
+        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
+    request.duration = static_cast<decltype(request.duration)>(chip::JniReferences::GetInstance().LongToPrimitive(duration));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -3320,13 +3434,12 @@ JNI_METHOD(void, DoorLockCluster, clearAllRfids)(JNIEnv * env, jobject self, jlo
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPDoorLockClusterClearAllRfidsResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -3337,22 +3450,22 @@ JNI_METHOD(void, DoorLockCluster, clearAllRfids)(JNIEnv * env, jobject self, jlo
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, clearHolidaySchedule)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject scheduleId)
+JNI_METHOD(void, BridgedActionsCluster, enableAction)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
+    BridgedActionsCluster * cppCluster;
 
-    chip::app::Clusters::DoorLock::Commands::ClearHolidaySchedule::Type request;
+    chip::app::Clusters::BridgedActions::Commands::EnableAction::Type request;
 
-    request.scheduleId =
-        static_cast<decltype(request.scheduleId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(scheduleId));
+    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
+    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
+    request.invokeID = chip::Optional<uint32_t>(
+        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
 
-    std::unique_ptr<CHIPDoorLockClusterClearHolidayScheduleResponseCallback,
-                    void (*)(CHIPDoorLockClusterClearHolidayScheduleResponseCallback *)>
-        onSuccess(Platform::New<CHIPDoorLockClusterClearHolidayScheduleResponseCallback>(callback),
-                  Platform::Delete<CHIPDoorLockClusterClearHolidayScheduleResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -3362,13 +3475,12 @@ JNI_METHOD(void, DoorLockCluster, clearHolidaySchedule)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPDoorLockClusterClearHolidayScheduleResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -3379,19 +3491,23 @@ JNI_METHOD(void, DoorLockCluster, clearHolidaySchedule)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, clearPin)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject userId)
+JNI_METHOD(void, BridgedActionsCluster, enableActionWithDuration)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID, jobject duration)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
+    BridgedActionsCluster * cppCluster;
 
-    chip::app::Clusters::DoorLock::Commands::ClearPin::Type request;
+    chip::app::Clusters::BridgedActions::Commands::EnableActionWithDuration::Type request;
 
-    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
+    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
+    request.invokeID = chip::Optional<uint32_t>(
+        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
+    request.duration = static_cast<decltype(request.duration)>(chip::JniReferences::GetInstance().LongToPrimitive(duration));
 
-    std::unique_ptr<CHIPDoorLockClusterClearPinResponseCallback, void (*)(CHIPDoorLockClusterClearPinResponseCallback *)> onSuccess(
-        Platform::New<CHIPDoorLockClusterClearPinResponseCallback>(callback),
-        Platform::Delete<CHIPDoorLockClusterClearPinResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -3401,12 +3517,12 @@ JNI_METHOD(void, DoorLockCluster, clearPin)(JNIEnv * env, jobject self, jlong cl
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn = chip::Callback::Callback<CHIPDoorLockClusterClearPinResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -3417,19 +3533,22 @@ JNI_METHOD(void, DoorLockCluster, clearPin)(JNIEnv * env, jobject self, jlong cl
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, clearRfid)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject userId)
+JNI_METHOD(void, BridgedActionsCluster, instantAction)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
+    BridgedActionsCluster * cppCluster;
 
-    chip::app::Clusters::DoorLock::Commands::ClearRfid::Type request;
+    chip::app::Clusters::BridgedActions::Commands::InstantAction::Type request;
 
-    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
+    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
+    request.invokeID = chip::Optional<uint32_t>(
+        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
 
-    std::unique_ptr<CHIPDoorLockClusterClearRfidResponseCallback, void (*)(CHIPDoorLockClusterClearRfidResponseCallback *)>
-        onSuccess(Platform::New<CHIPDoorLockClusterClearRfidResponseCallback>(callback),
-                  Platform::Delete<CHIPDoorLockClusterClearRfidResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -3439,13 +3558,12 @@ JNI_METHOD(void, DoorLockCluster, clearRfid)(JNIEnv * env, jobject self, jlong c
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPDoorLockClusterClearRfidResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -3456,23 +3574,24 @@ JNI_METHOD(void, DoorLockCluster, clearRfid)(JNIEnv * env, jobject self, jlong c
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, clearWeekdaySchedule)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject scheduleId, jobject userId)
+JNI_METHOD(void, BridgedActionsCluster, instantActionWithTransition)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID, jobject transitionTime)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
+    BridgedActionsCluster * cppCluster;
 
-    chip::app::Clusters::DoorLock::Commands::ClearWeekdaySchedule::Type request;
+    chip::app::Clusters::BridgedActions::Commands::InstantActionWithTransition::Type request;
 
-    request.scheduleId =
-        static_cast<decltype(request.scheduleId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(scheduleId));
-    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
+    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
+    request.invokeID = chip::Optional<uint32_t>(
+        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
+    request.transitionTime =
+        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
 
-    std::unique_ptr<CHIPDoorLockClusterClearWeekdayScheduleResponseCallback,
-                    void (*)(CHIPDoorLockClusterClearWeekdayScheduleResponseCallback *)>
-        onSuccess(Platform::New<CHIPDoorLockClusterClearWeekdayScheduleResponseCallback>(callback),
-                  Platform::Delete<CHIPDoorLockClusterClearWeekdayScheduleResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -3482,13 +3601,12 @@ JNI_METHOD(void, DoorLockCluster, clearWeekdaySchedule)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPDoorLockClusterClearWeekdayScheduleResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -3499,23 +3617,22 @@ JNI_METHOD(void, DoorLockCluster, clearWeekdaySchedule)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, clearYeardaySchedule)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject scheduleId, jobject userId)
+JNI_METHOD(void, BridgedActionsCluster, pauseAction)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
+    BridgedActionsCluster * cppCluster;
 
-    chip::app::Clusters::DoorLock::Commands::ClearYeardaySchedule::Type request;
+    chip::app::Clusters::BridgedActions::Commands::PauseAction::Type request;
 
-    request.scheduleId =
-        static_cast<decltype(request.scheduleId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(scheduleId));
-    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
+    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
+    request.invokeID = chip::Optional<uint32_t>(
+        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
 
-    std::unique_ptr<CHIPDoorLockClusterClearYeardayScheduleResponseCallback,
-                    void (*)(CHIPDoorLockClusterClearYeardayScheduleResponseCallback *)>
-        onSuccess(Platform::New<CHIPDoorLockClusterClearYeardayScheduleResponseCallback>(callback),
-                  Platform::Delete<CHIPDoorLockClusterClearYeardayScheduleResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -3525,13 +3642,12 @@ JNI_METHOD(void, DoorLockCluster, clearYeardaySchedule)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPDoorLockClusterClearYeardayScheduleResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -3542,22 +3658,23 @@ JNI_METHOD(void, DoorLockCluster, clearYeardaySchedule)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, getHolidaySchedule)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject scheduleId)
+JNI_METHOD(void, BridgedActionsCluster, pauseActionWithDuration)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID, jobject duration)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
-
-    chip::app::Clusters::DoorLock::Commands::GetHolidaySchedule::Type request;
+    BridgedActionsCluster * cppCluster;
 
-    request.scheduleId =
-        static_cast<decltype(request.scheduleId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(scheduleId));
+    chip::app::Clusters::BridgedActions::Commands::PauseActionWithDuration::Type request;
 
-    std::unique_ptr<CHIPDoorLockClusterGetHolidayScheduleResponseCallback,
-                    void (*)(CHIPDoorLockClusterGetHolidayScheduleResponseCallback *)>
-        onSuccess(Platform::New<CHIPDoorLockClusterGetHolidayScheduleResponseCallback>(callback),
-                  Platform::Delete<CHIPDoorLockClusterGetHolidayScheduleResponseCallback>);
+    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
+    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
+    request.invokeID = chip::Optional<uint32_t>(
+        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
+    request.duration = static_cast<decltype(request.duration)>(chip::JniReferences::GetInstance().LongToPrimitive(duration));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -3567,13 +3684,12 @@ JNI_METHOD(void, DoorLockCluster, getHolidaySchedule)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPDoorLockClusterGetHolidayScheduleResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -3584,19 +3700,22 @@ JNI_METHOD(void, DoorLockCluster, getHolidaySchedule)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, getLogRecord)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject logIndex)
+JNI_METHOD(void, BridgedActionsCluster, resumeAction)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
+    BridgedActionsCluster * cppCluster;
 
-    chip::app::Clusters::DoorLock::Commands::GetLogRecord::Type request;
+    chip::app::Clusters::BridgedActions::Commands::ResumeAction::Type request;
 
-    request.logIndex = static_cast<decltype(request.logIndex)>(chip::JniReferences::GetInstance().IntegerToPrimitive(logIndex));
+    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
+    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
+    request.invokeID = chip::Optional<uint32_t>(
+        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
 
-    std::unique_ptr<CHIPDoorLockClusterGetLogRecordResponseCallback, void (*)(CHIPDoorLockClusterGetLogRecordResponseCallback *)>
-        onSuccess(Platform::New<CHIPDoorLockClusterGetLogRecordResponseCallback>(callback),
-                  Platform::Delete<CHIPDoorLockClusterGetLogRecordResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -3606,13 +3725,12 @@ JNI_METHOD(void, DoorLockCluster, getLogRecord)(JNIEnv * env, jobject self, jlon
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPDoorLockClusterGetLogRecordResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -3623,19 +3741,22 @@ JNI_METHOD(void, DoorLockCluster, getLogRecord)(JNIEnv * env, jobject self, jlon
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, getPin)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject userId)
+JNI_METHOD(void, BridgedActionsCluster, startAction)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
+    BridgedActionsCluster * cppCluster;
 
-    chip::app::Clusters::DoorLock::Commands::GetPin::Type request;
+    chip::app::Clusters::BridgedActions::Commands::StartAction::Type request;
 
-    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
+    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
+    request.invokeID = chip::Optional<uint32_t>(
+        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
 
-    std::unique_ptr<CHIPDoorLockClusterGetPinResponseCallback, void (*)(CHIPDoorLockClusterGetPinResponseCallback *)> onSuccess(
-        Platform::New<CHIPDoorLockClusterGetPinResponseCallback>(callback),
-        Platform::Delete<CHIPDoorLockClusterGetPinResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -3645,12 +3766,12 @@ JNI_METHOD(void, DoorLockCluster, getPin)(JNIEnv * env, jobject self, jlong clus
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn = chip::Callback::Callback<CHIPDoorLockClusterGetPinResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -3661,19 +3782,23 @@ JNI_METHOD(void, DoorLockCluster, getPin)(JNIEnv * env, jobject self, jlong clus
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, getRfid)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject userId)
+JNI_METHOD(void, BridgedActionsCluster, startActionWithDuration)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID, jobject duration)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
+    BridgedActionsCluster * cppCluster;
 
-    chip::app::Clusters::DoorLock::Commands::GetRfid::Type request;
+    chip::app::Clusters::BridgedActions::Commands::StartActionWithDuration::Type request;
 
-    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
+    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
+    request.invokeID = chip::Optional<uint32_t>(
+        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
+    request.duration = static_cast<decltype(request.duration)>(chip::JniReferences::GetInstance().LongToPrimitive(duration));
 
-    std::unique_ptr<CHIPDoorLockClusterGetRfidResponseCallback, void (*)(CHIPDoorLockClusterGetRfidResponseCallback *)> onSuccess(
-        Platform::New<CHIPDoorLockClusterGetRfidResponseCallback>(callback),
-        Platform::Delete<CHIPDoorLockClusterGetRfidResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -3683,12 +3808,12 @@ JNI_METHOD(void, DoorLockCluster, getRfid)(JNIEnv * env, jobject self, jlong clu
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn = chip::Callback::Callback<CHIPDoorLockClusterGetRfidResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -3699,19 +3824,22 @@ JNI_METHOD(void, DoorLockCluster, getRfid)(JNIEnv * env, jobject self, jlong clu
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, getUserType)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject userId)
+JNI_METHOD(void, BridgedActionsCluster, stopAction)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject actionID, jobject invokeID)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
+    BridgedActionsCluster * cppCluster;
 
-    chip::app::Clusters::DoorLock::Commands::GetUserType::Type request;
+    chip::app::Clusters::BridgedActions::Commands::StopAction::Type request;
 
-    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+    request.actionID = static_cast<decltype(request.actionID)>(chip::JniReferences::GetInstance().IntegerToPrimitive(actionID));
+    chip::JniReferences::GetInstance().GetOptionalValue(invokeID, invokeID);
+    request.invokeID = chip::Optional<uint32_t>(
+        static_cast<decltype(request.invokeID)>(chip::JniReferences::GetInstance().LongToPrimitive(invokeID)));
 
-    std::unique_ptr<CHIPDoorLockClusterGetUserTypeResponseCallback, void (*)(CHIPDoorLockClusterGetUserTypeResponseCallback *)>
-        onSuccess(Platform::New<CHIPDoorLockClusterGetUserTypeResponseCallback>(callback),
-                  Platform::Delete<CHIPDoorLockClusterGetUserTypeResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -3721,13 +3849,12 @@ JNI_METHOD(void, DoorLockCluster, getUserType)(JNIEnv * env, jobject self, jlong
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPDoorLockClusterGetUserTypeResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -3738,198 +3865,212 @@ JNI_METHOD(void, DoorLockCluster, getUserType)(JNIEnv * env, jobject self, jlong
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, getWeekdaySchedule)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject scheduleId, jobject userId)
+JNI_METHOD(void, BridgedActionsCluster, subscribeSetupUrlAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
-
-    chip::app::Clusters::DoorLock::Commands::GetWeekdaySchedule::Type request;
-
-    request.scheduleId =
-        static_cast<decltype(request.scheduleId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(scheduleId));
-    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPDoorLockClusterGetWeekdayScheduleResponseCallback,
-                    void (*)(CHIPDoorLockClusterGetWeekdayScheduleResponseCallback *)>
-        onSuccess(Platform::New<CHIPDoorLockClusterGetWeekdayScheduleResponseCallback>(callback),
-                  Platform::Delete<CHIPDoorLockClusterGetWeekdayScheduleResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    BridgedActionsCluster * cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPDoorLockClusterGetWeekdayScheduleResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeSetupUrl(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                 static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, getYeardaySchedule)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject scheduleId, jobject userId)
+
+JNI_METHOD(void, BridgedActionsCluster, reportSetupUrlAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
-
-    chip::app::Clusters::DoorLock::Commands::GetYeardaySchedule::Type request;
-
-    request.scheduleId =
-        static_cast<decltype(request.scheduleId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(scheduleId));
-    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
-
-    std::unique_ptr<CHIPDoorLockClusterGetYeardayScheduleResponseCallback,
-                    void (*)(CHIPDoorLockClusterGetYeardayScheduleResponseCallback *)>
-        onSuccess(Platform::New<CHIPDoorLockClusterGetYeardayScheduleResponseCallback>(callback),
-                  Platform::Delete<CHIPDoorLockClusterGetYeardayScheduleResponseCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    BridgedActionsCluster * cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPDoorLockClusterGetYeardayScheduleResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributeSetupUrl(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-JNI_METHOD(void, DoorLockCluster, lockDoor)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray pin)
+JNI_METHOD(void, BridgedActionsCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
-
-    chip::app::Clusters::DoorLock::Commands::LockDoor::Type request;
-
-    request.pin = chip::JniByteArray(env, static_cast<jbyteArray>(pin)).byteSpan();
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPDoorLockClusterLockDoorResponseCallback, void (*)(CHIPDoorLockClusterLockDoorResponseCallback *)> onSuccess(
-        Platform::New<CHIPDoorLockClusterLockDoorResponseCallback>(callback),
-        Platform::Delete<CHIPDoorLockClusterLockDoorResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    BridgedActionsCluster * cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDoorLockClusterLockDoorResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, setHolidaySchedule)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject scheduleId, jobject localStartTime, jobject localEndTime,
- jobject operatingModeDuringHoliday)
+
+JNI_METHOD(void, BridgedActionsCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::DoorLock::Commands::SetHolidaySchedule::Type request;
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    BridgedActionsCluster * cppCluster = reinterpret_cast<BridgedActionsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.scheduleId =
-        static_cast<decltype(request.scheduleId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(scheduleId));
-    request.localStartTime =
-        static_cast<decltype(request.localStartTime)>(chip::JniReferences::GetInstance().LongToPrimitive(localStartTime));
-    request.localEndTime =
-        static_cast<decltype(request.localEndTime)>(chip::JniReferences::GetInstance().LongToPrimitive(localEndTime));
-    request.operatingModeDuringHoliday = static_cast<decltype(request.operatingModeDuringHoliday)>(
-        chip::JniReferences::GetInstance().IntegerToPrimitive(operatingModeDuringHoliday));
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, BridgedDeviceBasicInformationCluster, initWithDevice)
+(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    BridgedDeviceBasicInformationCluster * cppCluster = new BridgedDeviceBasicInformationCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, BridgedDeviceBasicInformationCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPDoorLockClusterSetHolidayScheduleResponseCallback,
-                    void (*)(CHIPDoorLockClusterSetHolidayScheduleResponseCallback *)>
-        onSuccess(Platform::New<CHIPDoorLockClusterSetHolidayScheduleResponseCallback>(callback),
-                  Platform::Delete<CHIPDoorLockClusterSetHolidayScheduleResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    CHIP_ERROR err                                    = CHIP_NO_ERROR;
+    BridgedDeviceBasicInformationCluster * cppCluster = reinterpret_cast<BridgedDeviceBasicInformationCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPDoorLockClusterSetHolidayScheduleResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, setPin)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject userId, jobject userStatus, jobject userType,
- jbyteArray pin)
+
+JNI_METHOD(void, BridgedDeviceBasicInformationCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                    = CHIP_NO_ERROR;
+    BridgedDeviceBasicInformationCluster * cppCluster = reinterpret_cast<BridgedDeviceBasicInformationCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, ColorControlCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    ColorControlCluster * cppCluster = new ColorControlCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, ColorControlCluster, colorLoopSet)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject updateFlags, jobject action, jobject direction,
+ jobject time, jobject startHue, jobject optionsMask, jobject optionsOverride)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
+    ColorControlCluster * cppCluster;
 
-    chip::app::Clusters::DoorLock::Commands::SetPin::Type request;
+    chip::app::Clusters::ColorControl::Commands::ColorLoopSet::Type request;
 
-    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
-    request.userStatus =
-        static_cast<decltype(request.userStatus)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userStatus));
-    request.userType = static_cast<decltype(request.userType)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userType));
-    request.pin      = chip::JniByteArray(env, static_cast<jbyteArray>(pin)).byteSpan();
+    request.updateFlags =
+        static_cast<decltype(request.updateFlags)>(chip::JniReferences::GetInstance().IntegerToPrimitive(updateFlags));
+    request.action    = static_cast<decltype(request.action)>(chip::JniReferences::GetInstance().IntegerToPrimitive(action));
+    request.direction = static_cast<decltype(request.direction)>(chip::JniReferences::GetInstance().IntegerToPrimitive(direction));
+    request.time      = static_cast<decltype(request.time)>(chip::JniReferences::GetInstance().IntegerToPrimitive(time));
+    request.startHue  = static_cast<decltype(request.startHue)>(chip::JniReferences::GetInstance().IntegerToPrimitive(startHue));
+    request.optionsMask =
+        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
+    request.optionsOverride =
+        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
 
-    std::unique_ptr<CHIPDoorLockClusterSetPinResponseCallback, void (*)(CHIPDoorLockClusterSetPinResponseCallback *)> onSuccess(
-        Platform::New<CHIPDoorLockClusterSetPinResponseCallback>(callback),
-        Platform::Delete<CHIPDoorLockClusterSetPinResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -3939,12 +4080,12 @@ JNI_METHOD(void, DoorLockCluster, setPin)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn = chip::Callback::Callback<CHIPDoorLockClusterSetPinResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -3955,25 +4096,25 @@ JNI_METHOD(void, DoorLockCluster, setPin)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, setRfid)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject userId, jobject userStatus, jobject userType,
- jbyteArray id)
+JNI_METHOD(void, ColorControlCluster, enhancedMoveHue)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject moveMode, jobject rate, jobject optionsMask,
+ jobject optionsOverride)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
+    ColorControlCluster * cppCluster;
 
-    chip::app::Clusters::DoorLock::Commands::SetRfid::Type request;
+    chip::app::Clusters::ColorControl::Commands::EnhancedMoveHue::Type request;
 
-    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
-    request.userStatus =
-        static_cast<decltype(request.userStatus)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userStatus));
-    request.userType = static_cast<decltype(request.userType)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userType));
-    request.id       = chip::JniByteArray(env, static_cast<jbyteArray>(id)).byteSpan();
+    request.moveMode = static_cast<decltype(request.moveMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(moveMode));
+    request.rate     = static_cast<decltype(request.rate)>(chip::JniReferences::GetInstance().IntegerToPrimitive(rate));
+    request.optionsMask =
+        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
+    request.optionsOverride =
+        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
 
-    std::unique_ptr<CHIPDoorLockClusterSetRfidResponseCallback, void (*)(CHIPDoorLockClusterSetRfidResponseCallback *)> onSuccess(
-        Platform::New<CHIPDoorLockClusterSetRfidResponseCallback>(callback),
-        Platform::Delete<CHIPDoorLockClusterSetRfidResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -3983,12 +4124,12 @@ JNI_METHOD(void, DoorLockCluster, setRfid)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn = chip::Callback::Callback<CHIPDoorLockClusterSetRfidResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -3999,21 +4140,28 @@ JNI_METHOD(void, DoorLockCluster, setRfid)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, setUserType)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject userId, jobject userType)
+JNI_METHOD(void, ColorControlCluster, enhancedMoveToHue)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject enhancedHue, jobject direction, jobject transitionTime,
+ jobject optionsMask, jobject optionsOverride)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
+    ColorControlCluster * cppCluster;
 
-    chip::app::Clusters::DoorLock::Commands::SetUserType::Type request;
+    chip::app::Clusters::ColorControl::Commands::EnhancedMoveToHue::Type request;
 
-    request.userId   = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
-    request.userType = static_cast<decltype(request.userType)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userType));
+    request.enhancedHue =
+        static_cast<decltype(request.enhancedHue)>(chip::JniReferences::GetInstance().IntegerToPrimitive(enhancedHue));
+    request.direction = static_cast<decltype(request.direction)>(chip::JniReferences::GetInstance().IntegerToPrimitive(direction));
+    request.transitionTime =
+        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+    request.optionsMask =
+        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
+    request.optionsOverride =
+        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
 
-    std::unique_ptr<CHIPDoorLockClusterSetUserTypeResponseCallback, void (*)(CHIPDoorLockClusterSetUserTypeResponseCallback *)>
-        onSuccess(Platform::New<CHIPDoorLockClusterSetUserTypeResponseCallback>(callback),
-                  Platform::Delete<CHIPDoorLockClusterSetUserTypeResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -4023,13 +4171,12 @@ JNI_METHOD(void, DoorLockCluster, setUserType)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPDoorLockClusterSetUserTypeResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -4040,30 +4187,29 @@ JNI_METHOD(void, DoorLockCluster, setUserType)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, setWeekdaySchedule)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject scheduleId, jobject userId, jobject daysMask,
- jobject startHour, jobject startMinute, jobject endHour, jobject endMinute)
+JNI_METHOD(void, ColorControlCluster, enhancedMoveToHueAndSaturation)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject enhancedHue, jobject saturation, jobject transitionTime,
+ jobject optionsMask, jobject optionsOverride)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
+    ColorControlCluster * cppCluster;
 
-    chip::app::Clusters::DoorLock::Commands::SetWeekdaySchedule::Type request;
+    chip::app::Clusters::ColorControl::Commands::EnhancedMoveToHueAndSaturation::Type request;
 
-    request.scheduleId =
-        static_cast<decltype(request.scheduleId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(scheduleId));
-    request.userId    = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
-    request.daysMask  = static_cast<decltype(request.daysMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(daysMask));
-    request.startHour = static_cast<decltype(request.startHour)>(chip::JniReferences::GetInstance().IntegerToPrimitive(startHour));
-    request.startMinute =
-        static_cast<decltype(request.startMinute)>(chip::JniReferences::GetInstance().IntegerToPrimitive(startMinute));
-    request.endHour   = static_cast<decltype(request.endHour)>(chip::JniReferences::GetInstance().IntegerToPrimitive(endHour));
-    request.endMinute = static_cast<decltype(request.endMinute)>(chip::JniReferences::GetInstance().IntegerToPrimitive(endMinute));
+    request.enhancedHue =
+        static_cast<decltype(request.enhancedHue)>(chip::JniReferences::GetInstance().IntegerToPrimitive(enhancedHue));
+    request.saturation =
+        static_cast<decltype(request.saturation)>(chip::JniReferences::GetInstance().IntegerToPrimitive(saturation));
+    request.transitionTime =
+        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+    request.optionsMask =
+        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
+    request.optionsOverride =
+        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
 
-    std::unique_ptr<CHIPDoorLockClusterSetWeekdayScheduleResponseCallback,
-                    void (*)(CHIPDoorLockClusterSetWeekdayScheduleResponseCallback *)>
-        onSuccess(Platform::New<CHIPDoorLockClusterSetWeekdayScheduleResponseCallback>(callback),
-                  Platform::Delete<CHIPDoorLockClusterSetWeekdayScheduleResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -4073,13 +4219,12 @@ JNI_METHOD(void, DoorLockCluster, setWeekdaySchedule)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPDoorLockClusterSetWeekdayScheduleResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -4090,28 +4235,27 @@ JNI_METHOD(void, DoorLockCluster, setWeekdaySchedule)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, setYeardaySchedule)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject scheduleId, jobject userId, jobject localStartTime,
- jobject localEndTime)
+JNI_METHOD(void, ColorControlCluster, enhancedStepHue)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject stepMode, jobject stepSize, jobject transitionTime,
+ jobject optionsMask, jobject optionsOverride)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
+    ColorControlCluster * cppCluster;
 
-    chip::app::Clusters::DoorLock::Commands::SetYeardaySchedule::Type request;
+    chip::app::Clusters::ColorControl::Commands::EnhancedStepHue::Type request;
 
-    request.scheduleId =
-        static_cast<decltype(request.scheduleId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(scheduleId));
-    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
-    request.localStartTime =
-        static_cast<decltype(request.localStartTime)>(chip::JniReferences::GetInstance().LongToPrimitive(localStartTime));
-    request.localEndTime =
-        static_cast<decltype(request.localEndTime)>(chip::JniReferences::GetInstance().LongToPrimitive(localEndTime));
+    request.stepMode = static_cast<decltype(request.stepMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepMode));
+    request.stepSize = static_cast<decltype(request.stepSize)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepSize));
+    request.transitionTime =
+        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+    request.optionsMask =
+        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
+    request.optionsOverride =
+        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
 
-    std::unique_ptr<CHIPDoorLockClusterSetYeardayScheduleResponseCallback,
-                    void (*)(CHIPDoorLockClusterSetYeardayScheduleResponseCallback *)>
-        onSuccess(Platform::New<CHIPDoorLockClusterSetYeardayScheduleResponseCallback>(callback),
-                  Platform::Delete<CHIPDoorLockClusterSetYeardayScheduleResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -4121,13 +4265,12 @@ JNI_METHOD(void, DoorLockCluster, setYeardaySchedule)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPDoorLockClusterSetYeardayScheduleResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -4138,19 +4281,25 @@ JNI_METHOD(void, DoorLockCluster, setYeardaySchedule)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, unlockDoor)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray pin)
+JNI_METHOD(void, ColorControlCluster, moveColor)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject rateX, jobject rateY, jobject optionsMask,
+ jobject optionsOverride)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
-
-    chip::app::Clusters::DoorLock::Commands::UnlockDoor::Type request;
+    ColorControlCluster * cppCluster;
 
-    request.pin = chip::JniByteArray(env, static_cast<jbyteArray>(pin)).byteSpan();
+    chip::app::Clusters::ColorControl::Commands::MoveColor::Type request;
 
-    std::unique_ptr<CHIPDoorLockClusterUnlockDoorResponseCallback, void (*)(CHIPDoorLockClusterUnlockDoorResponseCallback *)>
-        onSuccess(Platform::New<CHIPDoorLockClusterUnlockDoorResponseCallback>(callback),
-                  Platform::Delete<CHIPDoorLockClusterUnlockDoorResponseCallback>);
+    request.rateX = static_cast<decltype(request.rateX)>(chip::JniReferences::GetInstance().IntegerToPrimitive(rateX));
+    request.rateY = static_cast<decltype(request.rateY)>(chip::JniReferences::GetInstance().IntegerToPrimitive(rateY));
+    request.optionsMask =
+        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
+    request.optionsOverride =
+        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -4160,13 +4309,12 @@ JNI_METHOD(void, DoorLockCluster, unlockDoor)(JNIEnv * env, jobject self, jlong
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPDoorLockClusterUnlockDoorResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -4177,23 +4325,29 @@ JNI_METHOD(void, DoorLockCluster, unlockDoor)(JNIEnv * env, jobject self, jlong
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, DoorLockCluster, unlockWithTimeout)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject timeoutInSeconds, jbyteArray pin)
+JNI_METHOD(void, ColorControlCluster, moveColorTemperature)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject moveMode, jobject rate, jobject colorTemperatureMinimum,
+ jobject colorTemperatureMaximum, jobject optionsMask, jobject optionsOverride)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster;
+    ColorControlCluster * cppCluster;
 
-    chip::app::Clusters::DoorLock::Commands::UnlockWithTimeout::Type request;
+    chip::app::Clusters::ColorControl::Commands::MoveColorTemperature::Type request;
 
-    request.timeoutInSeconds =
-        static_cast<decltype(request.timeoutInSeconds)>(chip::JniReferences::GetInstance().IntegerToPrimitive(timeoutInSeconds));
-    request.pin = chip::JniByteArray(env, static_cast<jbyteArray>(pin)).byteSpan();
+    request.moveMode = static_cast<decltype(request.moveMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(moveMode));
+    request.rate     = static_cast<decltype(request.rate)>(chip::JniReferences::GetInstance().IntegerToPrimitive(rate));
+    request.colorTemperatureMinimum = static_cast<decltype(request.colorTemperatureMinimum)>(
+        chip::JniReferences::GetInstance().IntegerToPrimitive(colorTemperatureMinimum));
+    request.colorTemperatureMaximum = static_cast<decltype(request.colorTemperatureMaximum)>(
+        chip::JniReferences::GetInstance().IntegerToPrimitive(colorTemperatureMaximum));
+    request.optionsMask =
+        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
+    request.optionsOverride =
+        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
 
-    std::unique_ptr<CHIPDoorLockClusterUnlockWithTimeoutResponseCallback,
-                    void (*)(CHIPDoorLockClusterUnlockWithTimeoutResponseCallback *)>
-        onSuccess(Platform::New<CHIPDoorLockClusterUnlockWithTimeoutResponseCallback>(callback),
-                  Platform::Delete<CHIPDoorLockClusterUnlockWithTimeoutResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -4203,13 +4357,12 @@ JNI_METHOD(void, DoorLockCluster, unlockWithTimeout)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPDoorLockClusterUnlockWithTimeoutResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -4220,86 +4373,66 @@ JNI_METHOD(void, DoorLockCluster, unlockWithTimeout)
     onSuccess.release();
     onFailure.release();
 }
-
-JNI_METHOD(void, DoorLockCluster, subscribeLockStateAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+JNI_METHOD(void, ColorControlCluster, moveHue)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject moveMode, jobject rate, jobject optionsMask,
+ jobject optionsOverride)
 {
     chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster;
+
+    chip::app::Clusters::ColorControl::Commands::MoveHue::Type request;
+
+    request.moveMode = static_cast<decltype(request.moveMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(moveMode));
+    request.rate     = static_cast<decltype(request.rate)>(chip::JniReferences::GetInstance().IntegerToPrimitive(rate));
+    request.optionsMask =
+        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
+    request.optionsOverride =
+        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
+
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err               = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeLockState(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
-                                                  static_cast<uint16_t>(maxInterval));
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error subscribing to attribute", err));
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
 
     onSuccess.release();
     onFailure.release();
 }
-
-JNI_METHOD(void, DoorLockCluster, reportLockStateAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
-{
-    chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
-        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
-    VerifyOrReturn(onReport.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
-
-    CHIP_ERROR err               = CHIP_NO_ERROR;
-    DoorLockCluster * cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
-    VerifyOrReturn(cppCluster != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    err = cppCluster->ReportAttributeLockState(onReport->Cancel());
-    VerifyOrReturn(err == CHIP_NO_ERROR,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error registering for attribute reporting", err));
-
-    onReport.release();
-}
-JNI_METHOD(jlong, ElectricalMeasurementCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    ElectricalMeasurementCluster * cppCluster = new ElectricalMeasurementCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(jlong, EthernetNetworkDiagnosticsCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    EthernetNetworkDiagnosticsCluster * cppCluster = new EthernetNetworkDiagnosticsCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, resetCounts)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ColorControlCluster, moveSaturation)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject moveMode, jobject rate, jobject optionsMask,
+ jobject optionsOverride)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    EthernetNetworkDiagnosticsCluster * cppCluster;
+    ColorControlCluster * cppCluster;
 
-    chip::app::Clusters::EthernetNetworkDiagnostics::Commands::ResetCounts::Type request;
+    chip::app::Clusters::ColorControl::Commands::MoveSaturation::Type request;
+
+    request.moveMode = static_cast<decltype(request.moveMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(moveMode));
+    request.rate     = static_cast<decltype(request.rate)>(chip::JniReferences::GetInstance().IntegerToPrimitive(rate));
+    request.optionsMask =
+        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
+    request.optionsOverride =
+        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
 
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
@@ -4312,7 +4445,7 @@ JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, resetCounts)(JNIEnv * env, j
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
@@ -4328,51 +4461,27 @@ JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, resetCounts)(JNIEnv * env, j
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, FixedLabelCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    FixedLabelCluster * cppCluster = new FixedLabelCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(jlong, FlowMeasurementCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    FlowMeasurementCluster * cppCluster = new FlowMeasurementCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(jlong, GeneralCommissioningCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    GeneralCommissioningCluster * cppCluster = new GeneralCommissioningCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(void, GeneralCommissioningCluster, armFailSafe)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject expiryLengthSeconds, jobject breadcrumb, jobject timeoutMs)
+JNI_METHOD(void, ColorControlCluster, moveToColor)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject colorX, jobject colorY, jobject transitionTime,
+ jobject optionsMask, jobject optionsOverride)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    GeneralCommissioningCluster * cppCluster;
+    ColorControlCluster * cppCluster;
 
-    chip::app::Clusters::GeneralCommissioning::Commands::ArmFailSafe::Type request;
+    chip::app::Clusters::ColorControl::Commands::MoveToColor::Type request;
 
-    request.expiryLengthSeconds = static_cast<decltype(request.expiryLengthSeconds)>(
-        chip::JniReferences::GetInstance().IntegerToPrimitive(expiryLengthSeconds));
-    request.breadcrumb = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
-    request.timeoutMs  = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
+    request.colorX = static_cast<decltype(request.colorX)>(chip::JniReferences::GetInstance().IntegerToPrimitive(colorX));
+    request.colorY = static_cast<decltype(request.colorY)>(chip::JniReferences::GetInstance().IntegerToPrimitive(colorY));
+    request.transitionTime =
+        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+    request.optionsMask =
+        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
+    request.optionsOverride =
+        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
 
-    std::unique_ptr<CHIPGeneralCommissioningClusterArmFailSafeResponseCallback,
-                    void (*)(CHIPGeneralCommissioningClusterArmFailSafeResponseCallback *)>
-        onSuccess(Platform::New<CHIPGeneralCommissioningClusterArmFailSafeResponseCallback>(callback),
-                  Platform::Delete<CHIPGeneralCommissioningClusterArmFailSafeResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -4382,13 +4491,12 @@ JNI_METHOD(void, GeneralCommissioningCluster, armFailSafe)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<GeneralCommissioningCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn = chip::Callback::Callback<CHIPGeneralCommissioningClusterArmFailSafeResponseCallbackType>::FromCancelable(
-        onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -4399,18 +4507,27 @@ JNI_METHOD(void, GeneralCommissioningCluster, armFailSafe)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, GeneralCommissioningCluster, commissioningComplete)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ColorControlCluster, moveToColorTemperature)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject colorTemperature, jobject transitionTime,
+ jobject optionsMask, jobject optionsOverride)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    GeneralCommissioningCluster * cppCluster;
+    ColorControlCluster * cppCluster;
 
-    chip::app::Clusters::GeneralCommissioning::Commands::CommissioningComplete::Type request;
+    chip::app::Clusters::ColorControl::Commands::MoveToColorTemperature::Type request;
 
-    std::unique_ptr<CHIPGeneralCommissioningClusterCommissioningCompleteResponseCallback,
-                    void (*)(CHIPGeneralCommissioningClusterCommissioningCompleteResponseCallback *)>
-        onSuccess(Platform::New<CHIPGeneralCommissioningClusterCommissioningCompleteResponseCallback>(callback),
-                  Platform::Delete<CHIPGeneralCommissioningClusterCommissioningCompleteResponseCallback>);
+    request.colorTemperature =
+        static_cast<decltype(request.colorTemperature)>(chip::JniReferences::GetInstance().IntegerToPrimitive(colorTemperature));
+    request.transitionTime =
+        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+    request.optionsMask =
+        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
+    request.optionsOverride =
+        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -4420,14 +4537,12 @@ JNI_METHOD(void, GeneralCommissioningCluster, commissioningComplete)(JNIEnv * en
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<GeneralCommissioningCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPGeneralCommissioningClusterCommissioningCompleteResponseCallbackType>::FromCancelable(
-            onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -4438,25 +4553,27 @@ JNI_METHOD(void, GeneralCommissioningCluster, commissioningComplete)(JNIEnv * en
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, GeneralCommissioningCluster, setRegulatoryConfig)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject location, jstring countryCode, jobject breadcrumb,
- jobject timeoutMs)
+JNI_METHOD(void, ColorControlCluster, moveToHue)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject hue, jobject direction, jobject transitionTime,
+ jobject optionsMask, jobject optionsOverride)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    GeneralCommissioningCluster * cppCluster;
+    ColorControlCluster * cppCluster;
 
-    chip::app::Clusters::GeneralCommissioning::Commands::SetRegulatoryConfig::Type request;
+    chip::app::Clusters::ColorControl::Commands::MoveToHue::Type request;
 
-    request.location    = static_cast<decltype(request.location)>(chip::JniReferences::GetInstance().IntegerToPrimitive(location));
-    request.countryCode = chip::JniUtfString(env, static_cast<jstring>(countryCode)).charSpan();
-    request.breadcrumb  = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
-    request.timeoutMs   = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
+    request.hue       = static_cast<decltype(request.hue)>(chip::JniReferences::GetInstance().IntegerToPrimitive(hue));
+    request.direction = static_cast<decltype(request.direction)>(chip::JniReferences::GetInstance().IntegerToPrimitive(direction));
+    request.transitionTime =
+        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+    request.optionsMask =
+        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
+    request.optionsOverride =
+        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
 
-    std::unique_ptr<CHIPGeneralCommissioningClusterSetRegulatoryConfigResponseCallback,
-                    void (*)(CHIPGeneralCommissioningClusterSetRegulatoryConfigResponseCallback *)>
-        onSuccess(Platform::New<CHIPGeneralCommissioningClusterSetRegulatoryConfigResponseCallback>(callback),
-                  Platform::Delete<CHIPGeneralCommissioningClusterSetRegulatoryConfigResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -4466,14 +4583,12 @@ JNI_METHOD(void, GeneralCommissioningCluster, setRegulatoryConfig)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<GeneralCommissioningCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPGeneralCommissioningClusterSetRegulatoryConfigResponseCallbackType>::FromCancelable(
-            onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -4484,79 +4599,28 @@ JNI_METHOD(void, GeneralCommissioningCluster, setRegulatoryConfig)
     onSuccess.release();
     onFailure.release();
 }
-
-JNI_METHOD(void, GeneralCommissioningCluster, writeBreadcrumbAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
-{
-    chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
-
-    CHIP_ERROR err                           = CHIP_NO_ERROR;
-    GeneralCommissioningCluster * cppCluster = reinterpret_cast<GeneralCommissioningCluster *>(clusterPtr);
-    VerifyOrReturn(cppCluster != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    err = cppCluster->WriteAttributeBreadcrumb(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint64_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
-
-    onSuccess.release();
-    onFailure.release();
-}
-JNI_METHOD(jlong, GeneralDiagnosticsCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    GeneralDiagnosticsCluster * cppCluster = new GeneralDiagnosticsCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(jlong, GroupKeyManagementCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    GroupKeyManagementCluster * cppCluster = new GroupKeyManagementCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(jlong, GroupsCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    GroupsCluster * cppCluster = new GroupsCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(void, GroupsCluster, addGroup)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId, jstring groupName)
+JNI_METHOD(void, ColorControlCluster, moveToHueAndSaturation)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject hue, jobject saturation, jobject transitionTime,
+ jobject optionsMask, jobject optionsOverride)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    GroupsCluster * cppCluster;
+    ColorControlCluster * cppCluster;
 
-    chip::app::Clusters::Groups::Commands::AddGroup::Type request;
+    chip::app::Clusters::ColorControl::Commands::MoveToHueAndSaturation::Type request;
 
-    request.groupId   = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
-    request.groupName = chip::JniUtfString(env, static_cast<jstring>(groupName)).charSpan();
+    request.hue = static_cast<decltype(request.hue)>(chip::JniReferences::GetInstance().IntegerToPrimitive(hue));
+    request.saturation =
+        static_cast<decltype(request.saturation)>(chip::JniReferences::GetInstance().IntegerToPrimitive(saturation));
+    request.transitionTime =
+        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+    request.optionsMask =
+        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
+    request.optionsOverride =
+        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
 
-    std::unique_ptr<CHIPGroupsClusterAddGroupResponseCallback, void (*)(CHIPGroupsClusterAddGroupResponseCallback *)> onSuccess(
-        Platform::New<CHIPGroupsClusterAddGroupResponseCallback>(callback),
-        Platform::Delete<CHIPGroupsClusterAddGroupResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -4566,12 +4630,12 @@ JNI_METHOD(void, GroupsCluster, addGroup)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<GroupsCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn = chip::Callback::Callback<CHIPGroupsClusterAddGroupResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -4582,17 +4646,24 @@ JNI_METHOD(void, GroupsCluster, addGroup)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, GroupsCluster, addGroupIfIdentifying)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId, jstring groupName)
+JNI_METHOD(void, ColorControlCluster, moveToSaturation)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject saturation, jobject transitionTime, jobject optionsMask,
+ jobject optionsOverride)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    GroupsCluster * cppCluster;
+    ColorControlCluster * cppCluster;
 
-    chip::app::Clusters::Groups::Commands::AddGroupIfIdentifying::Type request;
+    chip::app::Clusters::ColorControl::Commands::MoveToSaturation::Type request;
 
-    request.groupId   = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
-    request.groupName = chip::JniUtfString(env, static_cast<jstring>(groupName)).charSpan();
+    request.saturation =
+        static_cast<decltype(request.saturation)>(chip::JniReferences::GetInstance().IntegerToPrimitive(saturation));
+    request.transitionTime =
+        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+    request.optionsMask =
+        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
+    request.optionsOverride =
+        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
 
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
@@ -4605,7 +4676,7 @@ JNI_METHOD(void, GroupsCluster, addGroupIfIdentifying)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<GroupsCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
@@ -4621,21 +4692,27 @@ JNI_METHOD(void, GroupsCluster, addGroupIfIdentifying)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, GroupsCluster, getGroupMembership)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupList)
+JNI_METHOD(void, ColorControlCluster, stepColor)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject stepX, jobject stepY, jobject transitionTime,
+ jobject optionsMask, jobject optionsOverride)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    GroupsCluster * cppCluster;
+    ColorControlCluster * cppCluster;
 
-    chip::app::Clusters::Groups::Commands::GetGroupMembership::Type request;
+    chip::app::Clusters::ColorControl::Commands::StepColor::Type request;
 
-    request.groupList = chip::app::DataModel::List<const uint16_t>();
+    request.stepX = static_cast<decltype(request.stepX)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepX));
+    request.stepY = static_cast<decltype(request.stepY)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepY));
+    request.transitionTime =
+        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+    request.optionsMask =
+        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
+    request.optionsOverride =
+        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
 
-    std::unique_ptr<CHIPGroupsClusterGetGroupMembershipResponseCallback,
-                    void (*)(CHIPGroupsClusterGetGroupMembershipResponseCallback *)>
-        onSuccess(Platform::New<CHIPGroupsClusterGetGroupMembershipResponseCallback>(callback),
-                  Platform::Delete<CHIPGroupsClusterGetGroupMembershipResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -4645,13 +4722,12 @@ JNI_METHOD(void, GroupsCluster, getGroupMembership)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<GroupsCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPGroupsClusterGetGroupMembershipResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -4662,13 +4738,28 @@ JNI_METHOD(void, GroupsCluster, getGroupMembership)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, GroupsCluster, removeAllGroups)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ColorControlCluster, stepColorTemperature)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject stepMode, jobject stepSize, jobject transitionTime,
+ jobject colorTemperatureMinimum, jobject colorTemperatureMaximum, jobject optionsMask, jobject optionsOverride)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    GroupsCluster * cppCluster;
+    ColorControlCluster * cppCluster;
 
-    chip::app::Clusters::Groups::Commands::RemoveAllGroups::Type request;
+    chip::app::Clusters::ColorControl::Commands::StepColorTemperature::Type request;
+
+    request.stepMode = static_cast<decltype(request.stepMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepMode));
+    request.stepSize = static_cast<decltype(request.stepSize)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepSize));
+    request.transitionTime =
+        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+    request.colorTemperatureMinimum = static_cast<decltype(request.colorTemperatureMinimum)>(
+        chip::JniReferences::GetInstance().IntegerToPrimitive(colorTemperatureMinimum));
+    request.colorTemperatureMaximum = static_cast<decltype(request.colorTemperatureMaximum)>(
+        chip::JniReferences::GetInstance().IntegerToPrimitive(colorTemperatureMaximum));
+    request.optionsMask =
+        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
+    request.optionsOverride =
+        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
 
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
@@ -4681,7 +4772,7 @@ JNI_METHOD(void, GroupsCluster, removeAllGroups)(JNIEnv * env, jobject self, jlo
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<GroupsCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
@@ -4697,19 +4788,27 @@ JNI_METHOD(void, GroupsCluster, removeAllGroups)(JNIEnv * env, jobject self, jlo
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, GroupsCluster, removeGroup)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId)
+JNI_METHOD(void, ColorControlCluster, stepHue)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject stepMode, jobject stepSize, jobject transitionTime,
+ jobject optionsMask, jobject optionsOverride)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    GroupsCluster * cppCluster;
+    ColorControlCluster * cppCluster;
 
-    chip::app::Clusters::Groups::Commands::RemoveGroup::Type request;
+    chip::app::Clusters::ColorControl::Commands::StepHue::Type request;
 
-    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
+    request.stepMode = static_cast<decltype(request.stepMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepMode));
+    request.stepSize = static_cast<decltype(request.stepSize)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepSize));
+    request.transitionTime =
+        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+    request.optionsMask =
+        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
+    request.optionsOverride =
+        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
 
-    std::unique_ptr<CHIPGroupsClusterRemoveGroupResponseCallback, void (*)(CHIPGroupsClusterRemoveGroupResponseCallback *)>
-        onSuccess(Platform::New<CHIPGroupsClusterRemoveGroupResponseCallback>(callback),
-                  Platform::Delete<CHIPGroupsClusterRemoveGroupResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -4719,13 +4818,12 @@ JNI_METHOD(void, GroupsCluster, removeGroup)(JNIEnv * env, jobject self, jlong c
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<GroupsCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPGroupsClusterRemoveGroupResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -4736,19 +4834,27 @@ JNI_METHOD(void, GroupsCluster, removeGroup)(JNIEnv * env, jobject self, jlong c
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, GroupsCluster, viewGroup)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId)
+JNI_METHOD(void, ColorControlCluster, stepSaturation)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject stepMode, jobject stepSize, jobject transitionTime,
+ jobject optionsMask, jobject optionsOverride)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    GroupsCluster * cppCluster;
+    ColorControlCluster * cppCluster;
 
-    chip::app::Clusters::Groups::Commands::ViewGroup::Type request;
+    chip::app::Clusters::ColorControl::Commands::StepSaturation::Type request;
 
-    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
+    request.stepMode = static_cast<decltype(request.stepMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepMode));
+    request.stepSize = static_cast<decltype(request.stepSize)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepSize));
+    request.transitionTime =
+        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+    request.optionsMask =
+        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
+    request.optionsOverride =
+        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
 
-    std::unique_ptr<CHIPGroupsClusterViewGroupResponseCallback, void (*)(CHIPGroupsClusterViewGroupResponseCallback *)> onSuccess(
-        Platform::New<CHIPGroupsClusterViewGroupResponseCallback>(callback),
-        Platform::Delete<CHIPGroupsClusterViewGroupResponseCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -4758,12 +4864,12 @@ JNI_METHOD(void, GroupsCluster, viewGroup)(JNIEnv * env, jobject self, jlong clu
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<GroupsCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn = chip::Callback::Callback<CHIPGroupsClusterViewGroupResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -4774,25 +4880,19 @@ JNI_METHOD(void, GroupsCluster, viewGroup)(JNIEnv * env, jobject self, jlong clu
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, IdentifyCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    IdentifyCluster * cppCluster = new IdentifyCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(void, IdentifyCluster, identify)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject identifyTime)
+JNI_METHOD(void, ColorControlCluster, stopMoveStep)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject optionsMask, jobject optionsOverride)
 {
     chip::DeviceLayer::StackLock lock;
     CHIP_ERROR err = CHIP_NO_ERROR;
-    IdentifyCluster * cppCluster;
+    ColorControlCluster * cppCluster;
 
-    chip::app::Clusters::Identify::Commands::Identify::Type request;
+    chip::app::Clusters::ColorControl::Commands::StopMoveStep::Type request;
 
-    request.identifyTime =
-        static_cast<decltype(request.identifyTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(identifyTime));
+    request.optionsMask =
+        static_cast<decltype(request.optionsMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsMask));
+    request.optionsOverride =
+        static_cast<decltype(request.optionsOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionsOverride));
 
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
@@ -4805,7 +4905,7 @@ JNI_METHOD(void, IdentifyCluster, identify)(JNIEnv * env, jobject self, jlong cl
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<IdentifyCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
@@ -4821,87 +4921,117 @@ JNI_METHOD(void, IdentifyCluster, identify)(JNIEnv * env, jobject self, jlong cl
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, IdentifyCluster, identifyQuery)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ColorControlCluster, subscribeCurrentHueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    IdentifyCluster * cppCluster;
-
-    chip::app::Clusters::Identify::Commands::IdentifyQuery::Type request;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPIdentifyClusterIdentifyQueryResponseCallback, void (*)(CHIPIdentifyClusterIdentifyQueryResponseCallback *)>
-        onSuccess(Platform::New<CHIPIdentifyClusterIdentifyQueryResponseCallback>(callback),
-                  Platform::Delete<CHIPIdentifyClusterIdentifyQueryResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<IdentifyCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPIdentifyClusterIdentifyQueryResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeCurrentHue(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, IdentifyCluster, triggerEffect)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject effectIdentifier, jobject effectVariant)
+
+JNI_METHOD(void, ColorControlCluster, reportCurrentHueAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    IdentifyCluster * cppCluster;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::Identify::Commands::TriggerEffect::Type request;
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.effectIdentifier =
-        static_cast<decltype(request.effectIdentifier)>(chip::JniReferences::GetInstance().IntegerToPrimitive(effectIdentifier));
-    request.effectVariant =
-        static_cast<decltype(request.effectVariant)>(chip::JniReferences::GetInstance().IntegerToPrimitive(effectVariant));
+    err = cppCluster->ReportAttributeCurrentHue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeCurrentSaturationAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<IdentifyCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeCurrentSaturation(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, IdentifyCluster, writeIdentifyTimeAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ColorControlCluster, reportCurrentSaturationAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeCurrentSaturation(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeRemainingTimeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -4916,30 +5046,45 @@ JNI_METHOD(void, IdentifyCluster, writeIdentifyTimeAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err               = CHIP_NO_ERROR;
-    IdentifyCluster * cppCluster = reinterpret_cast<IdentifyCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeIdentifyTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeRemainingTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, IlluminanceMeasurementCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+
+JNI_METHOD(void, ColorControlCluster, reportRemainingTimeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    IlluminanceMeasurementCluster * cppCluster = new IlluminanceMeasurementCluster();
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-JNI_METHOD(void, IlluminanceMeasurementCluster, subscribeMeasuredValueAttribute)
+    err = cppCluster->ReportAttributeRemainingTime(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeCurrentXAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -4955,14 +5100,14 @@ JNI_METHOD(void, IlluminanceMeasurementCluster, subscribeMeasuredValueAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                             = CHIP_NO_ERROR;
-    IlluminanceMeasurementCluster * cppCluster = reinterpret_cast<IlluminanceMeasurementCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeMeasuredValue(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
-                                                      static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeCurrentX(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                 static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -4971,8 +5116,7 @@ JNI_METHOD(void, IlluminanceMeasurementCluster, subscribeMeasuredValueAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, IlluminanceMeasurementCluster, reportMeasuredValueAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ColorControlCluster, reportCurrentXAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
@@ -4981,409 +5125,379 @@ JNI_METHOD(void, IlluminanceMeasurementCluster, reportMeasuredValueAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                             = CHIP_NO_ERROR;
-    IlluminanceMeasurementCluster * cppCluster = reinterpret_cast<IlluminanceMeasurementCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeMeasuredValue(onReport->Cancel());
+    err = cppCluster->ReportAttributeCurrentX(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-JNI_METHOD(jlong, KeypadInputCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    KeypadInputCluster * cppCluster = new KeypadInputCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(void, KeypadInputCluster, sendKey)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject keyCode)
+JNI_METHOD(void, ColorControlCluster, subscribeCurrentYAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    KeypadInputCluster * cppCluster;
-
-    chip::app::Clusters::KeypadInput::Commands::SendKey::Type request;
-
-    request.keyCode = static_cast<decltype(request.keyCode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(keyCode));
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPKeypadInputClusterSendKeyResponseCallback, void (*)(CHIPKeypadInputClusterSendKeyResponseCallback *)>
-        onSuccess(Platform::New<CHIPKeypadInputClusterSendKeyResponseCallback>(callback),
-                  Platform::Delete<CHIPKeypadInputClusterSendKeyResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<KeypadInputCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPKeypadInputClusterSendKeyResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeCurrentY(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                 static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, LevelControlCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    LevelControlCluster * cppCluster = new LevelControlCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
 
-JNI_METHOD(void, LevelControlCluster, move)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject moveMode, jobject rate, jobject optionMask,
- jobject optionOverride)
+JNI_METHOD(void, ColorControlCluster, reportCurrentYAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    LevelControlCluster * cppCluster;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::LevelControl::Commands::Move::Type request;
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.moveMode = static_cast<decltype(request.moveMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(moveMode));
-    request.rate     = static_cast<decltype(request.rate)>(chip::JniReferences::GetInstance().IntegerToPrimitive(rate));
-    request.optionMask =
-        static_cast<decltype(request.optionMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionMask));
-    request.optionOverride =
-        static_cast<decltype(request.optionOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionOverride));
+    err = cppCluster->ReportAttributeCurrentY(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeDriftCompensationAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeDriftCompensation(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, LevelControlCluster, moveToLevel)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject level, jobject transitionTime, jobject optionMask,
- jobject optionOverride)
+
+JNI_METHOD(void, ColorControlCluster, reportDriftCompensationAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    LevelControlCluster * cppCluster;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::LevelControl::Commands::MoveToLevel::Type request;
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.level = static_cast<decltype(request.level)>(chip::JniReferences::GetInstance().IntegerToPrimitive(level));
-    request.transitionTime =
-        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
-    request.optionMask =
-        static_cast<decltype(request.optionMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionMask));
-    request.optionOverride =
-        static_cast<decltype(request.optionOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionOverride));
+    err = cppCluster->ReportAttributeDriftCompensation(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeCompensationTextAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeCompensationText(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, LevelControlCluster, moveToLevelWithOnOff)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject level, jobject transitionTime)
+
+JNI_METHOD(void, ColorControlCluster, reportCompensationTextAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    LevelControlCluster * cppCluster;
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::LevelControl::Commands::MoveToLevelWithOnOff::Type request;
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.level = static_cast<decltype(request.level)>(chip::JniReferences::GetInstance().IntegerToPrimitive(level));
-    request.transitionTime =
-        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+    err = cppCluster->ReportAttributeCompensationText(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeColorTemperatureAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeColorTemperature(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, LevelControlCluster, moveWithOnOff)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject moveMode, jobject rate)
+
+JNI_METHOD(void, ColorControlCluster, reportColorTemperatureAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    LevelControlCluster * cppCluster;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::LevelControl::Commands::MoveWithOnOff::Type request;
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.moveMode = static_cast<decltype(request.moveMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(moveMode));
-    request.rate     = static_cast<decltype(request.rate)>(chip::JniReferences::GetInstance().IntegerToPrimitive(rate));
+    err = cppCluster->ReportAttributeColorTemperature(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeColorModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeColorMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, LevelControlCluster, step)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject stepMode, jobject stepSize, jobject transitionTime,
- jobject optionMask, jobject optionOverride)
+
+JNI_METHOD(void, ColorControlCluster, reportColorModeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    LevelControlCluster * cppCluster;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::LevelControl::Commands::Step::Type request;
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.stepMode = static_cast<decltype(request.stepMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepMode));
-    request.stepSize = static_cast<decltype(request.stepSize)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepSize));
-    request.transitionTime =
-        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
-    request.optionMask =
-        static_cast<decltype(request.optionMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionMask));
-    request.optionOverride =
-        static_cast<decltype(request.optionOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionOverride));
+    err = cppCluster->ReportAttributeColorMode(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, writeColorControlOptionsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
-    VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+    err = cppCluster->WriteAttributeColorControlOptions(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, LevelControlCluster, stepWithOnOff)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject stepMode, jobject stepSize, jobject transitionTime)
+JNI_METHOD(void, ColorControlCluster, subscribeColorControlOptionsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    LevelControlCluster * cppCluster;
-
-    chip::app::Clusters::LevelControl::Commands::StepWithOnOff::Type request;
-
-    request.stepMode = static_cast<decltype(request.stepMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepMode));
-    request.stepSize = static_cast<decltype(request.stepSize)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepSize));
-    request.transitionTime =
-        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-
-    cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
-    VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
-
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
-    VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
-
-    onSuccess.release();
-    onFailure.release();
-}
-JNI_METHOD(void, LevelControlCluster, stop)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject optionMask, jobject optionOverride)
-{
-    chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    LevelControlCluster * cppCluster;
-
-    chip::app::Clusters::LevelControl::Commands::Stop::Type request;
-
-    request.optionMask =
-        static_cast<decltype(request.optionMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionMask));
-    request.optionOverride =
-        static_cast<decltype(request.optionOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionOverride));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeColorControlOptions(onSuccess->Cancel(), onFailure->Cancel(),
+                                                            static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, LevelControlCluster, stopWithOnOff)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+
+JNI_METHOD(void, ColorControlCluster, reportColorControlOptionsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    LevelControlCluster * cppCluster;
-
-    chip::app::Clusters::LevelControl::Commands::StopWithOnOff::Type request;
-
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributeColorControlOptions(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, LevelControlCluster, subscribeCurrentLevelAttribute)
+JNI_METHOD(void, ColorControlCluster, subscribeNumberOfPrimariesAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -5400,13 +5514,13 @@ JNI_METHOD(void, LevelControlCluster, subscribeCurrentLevelAttribute)
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
     CHIP_ERROR err                   = CHIP_NO_ERROR;
-    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeCurrentLevel(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
-                                                     static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeNumberOfPrimaries(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -5415,7 +5529,8 @@ JNI_METHOD(void, LevelControlCluster, subscribeCurrentLevelAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, LevelControlCluster, reportCurrentLevelAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ColorControlCluster, reportNumberOfPrimariesAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
@@ -5425,21 +5540,20 @@ JNI_METHOD(void, LevelControlCluster, reportCurrentLevelAttribute)(JNIEnv * env,
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
     CHIP_ERROR err                   = CHIP_NO_ERROR;
-    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeCurrentLevel(onReport->Cancel());
+    err = cppCluster->ReportAttributeNumberOfPrimaries(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-
-JNI_METHOD(void, LevelControlCluster, writeOptionsAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ColorControlCluster, subscribePrimary1XAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -5455,53 +5569,45 @@ JNI_METHOD(void, LevelControlCluster, writeOptionsAttribute)
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
     CHIP_ERROR err                   = CHIP_NO_ERROR;
-    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeOptions(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributePrimary1X(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, LevelControlCluster, writeOnOffTransitionTimeAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ColorControlCluster, reportPrimary1XAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
     CHIP_ERROR err                   = CHIP_NO_ERROR;
-    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeOnOffTransitionTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributePrimary1X(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, LevelControlCluster, writeOnLevelAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ColorControlCluster, subscribePrimary1YAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -5517,53 +5623,45 @@ JNI_METHOD(void, LevelControlCluster, writeOnLevelAttribute)
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
     CHIP_ERROR err                   = CHIP_NO_ERROR;
-    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeOnLevel(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributePrimary1Y(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, LevelControlCluster, writeOnTransitionTimeAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ColorControlCluster, reportPrimary1YAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
     CHIP_ERROR err                   = CHIP_NO_ERROR;
-    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeOnTransitionTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributePrimary1Y(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, LevelControlCluster, writeOffTransitionTimeAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ColorControlCluster, subscribePrimary1IntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -5579,53 +5677,46 @@ JNI_METHOD(void, LevelControlCluster, writeOffTransitionTimeAttribute)
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
     CHIP_ERROR err                   = CHIP_NO_ERROR;
-    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeOffTransitionTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributePrimary1Intensity(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, LevelControlCluster, writeDefaultMoveRateAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ColorControlCluster, reportPrimary1IntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
     CHIP_ERROR err                   = CHIP_NO_ERROR;
-    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeDefaultMoveRate(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributePrimary1Intensity(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, LevelControlCluster, writeStartUpCurrentLevelAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ColorControlCluster, subscribePrimary2XAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -5641,703 +5732,836 @@ JNI_METHOD(void, LevelControlCluster, writeStartUpCurrentLevelAttribute)
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
     CHIP_ERROR err                   = CHIP_NO_ERROR;
-    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeStartUpCurrentLevel(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributePrimary2X(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, LowPowerCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+
+JNI_METHOD(void, ColorControlCluster, reportPrimary2XAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    LowPowerCluster * cppCluster = new LowPowerCluster();
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-JNI_METHOD(void, LowPowerCluster, sleep)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+    err = cppCluster->ReportAttributePrimary2X(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribePrimary2YAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    LowPowerCluster * cppCluster;
-
-    chip::app::Clusters::LowPower::Commands::Sleep::Type request;
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<LowPowerCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributePrimary2Y(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, MediaInputCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+
+JNI_METHOD(void, ColorControlCluster, reportPrimary2YAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    MediaInputCluster * cppCluster = new MediaInputCluster();
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-JNI_METHOD(void, MediaInputCluster, hideInputStatus)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+    err = cppCluster->ReportAttributePrimary2Y(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribePrimary2IntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    MediaInputCluster * cppCluster;
-
-    chip::app::Clusters::MediaInput::Commands::HideInputStatus::Type request;
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<MediaInputCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributePrimary2Intensity(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, MediaInputCluster, renameInput)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject index, jstring name)
+
+JNI_METHOD(void, ColorControlCluster, reportPrimary2IntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    MediaInputCluster * cppCluster;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::MediaInput::Commands::RenameInput::Type request;
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.index = static_cast<decltype(request.index)>(chip::JniReferences::GetInstance().IntegerToPrimitive(index));
-    request.name  = chip::JniUtfString(env, static_cast<jstring>(name)).charSpan();
+    err = cppCluster->ReportAttributePrimary2Intensity(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribePrimary3XAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<MediaInputCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributePrimary3X(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, MediaInputCluster, selectInput)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject index)
+
+JNI_METHOD(void, ColorControlCluster, reportPrimary3XAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    MediaInputCluster * cppCluster;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::MediaInput::Commands::SelectInput::Type request;
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.index = static_cast<decltype(request.index)>(chip::JniReferences::GetInstance().IntegerToPrimitive(index));
+    err = cppCluster->ReportAttributePrimary3X(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribePrimary3YAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<MediaInputCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributePrimary3Y(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, MediaInputCluster, showInputStatus)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+
+JNI_METHOD(void, ColorControlCluster, reportPrimary3YAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    MediaInputCluster * cppCluster;
-
-    chip::app::Clusters::MediaInput::Commands::ShowInputStatus::Type request;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributePrimary3Y(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribePrimary3IntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<MediaInputCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributePrimary3Intensity(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, MediaPlaybackCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+
+JNI_METHOD(void, ColorControlCluster, reportPrimary3IntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    MediaPlaybackCluster * cppCluster = new MediaPlaybackCluster();
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-JNI_METHOD(void, MediaPlaybackCluster, mediaFastForward)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+    err = cppCluster->ReportAttributePrimary3Intensity(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribePrimary4XAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    MediaPlaybackCluster * cppCluster;
-
-    chip::app::Clusters::MediaPlayback::Commands::MediaFastForward::Type request;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPMediaPlaybackClusterMediaFastForwardResponseCallback,
-                    void (*)(CHIPMediaPlaybackClusterMediaFastForwardResponseCallback *)>
-        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaFastForwardResponseCallback>(callback),
-                  Platform::Delete<CHIPMediaPlaybackClusterMediaFastForwardResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaFastForwardResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributePrimary4X(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, MediaPlaybackCluster, mediaNext)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+
+JNI_METHOD(void, ColorControlCluster, reportPrimary4XAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    MediaPlaybackCluster * cppCluster;
-
-    chip::app::Clusters::MediaPlayback::Commands::MediaNext::Type request;
-
-    std::unique_ptr<CHIPMediaPlaybackClusterMediaNextResponseCallback,
-                    void (*)(CHIPMediaPlaybackClusterMediaNextResponseCallback *)>
-        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaNextResponseCallback>(callback),
-                  Platform::Delete<CHIPMediaPlaybackClusterMediaNextResponseCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaNextResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributePrimary4X(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-JNI_METHOD(void, MediaPlaybackCluster, mediaPause)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ColorControlCluster, subscribePrimary4YAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    MediaPlaybackCluster * cppCluster;
-
-    chip::app::Clusters::MediaPlayback::Commands::MediaPause::Type request;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPMediaPlaybackClusterMediaPauseResponseCallback,
-                    void (*)(CHIPMediaPlaybackClusterMediaPauseResponseCallback *)>
-        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaPauseResponseCallback>(callback),
-                  Platform::Delete<CHIPMediaPlaybackClusterMediaPauseResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaPauseResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributePrimary4Y(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, MediaPlaybackCluster, mediaPlay)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+
+JNI_METHOD(void, ColorControlCluster, reportPrimary4YAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    MediaPlaybackCluster * cppCluster;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::MediaPlayback::Commands::MediaPlay::Type request;
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributePrimary4Y(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribePrimary4IntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPMediaPlaybackClusterMediaPlayResponseCallback,
-                    void (*)(CHIPMediaPlaybackClusterMediaPlayResponseCallback *)>
-        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaPlayResponseCallback>(callback),
-                  Platform::Delete<CHIPMediaPlaybackClusterMediaPlayResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaPlayResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributePrimary4Intensity(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, MediaPlaybackCluster, mediaPrevious)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+
+JNI_METHOD(void, ColorControlCluster, reportPrimary4IntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    MediaPlaybackCluster * cppCluster;
-
-    chip::app::Clusters::MediaPlayback::Commands::MediaPrevious::Type request;
-
-    std::unique_ptr<CHIPMediaPlaybackClusterMediaPreviousResponseCallback,
-                    void (*)(CHIPMediaPlaybackClusterMediaPreviousResponseCallback *)>
-        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaPreviousResponseCallback>(callback),
-                  Platform::Delete<CHIPMediaPlaybackClusterMediaPreviousResponseCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaPreviousResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributePrimary4Intensity(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-JNI_METHOD(void, MediaPlaybackCluster, mediaRewind)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ColorControlCluster, subscribePrimary5XAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    MediaPlaybackCluster * cppCluster;
-
-    chip::app::Clusters::MediaPlayback::Commands::MediaRewind::Type request;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPMediaPlaybackClusterMediaRewindResponseCallback,
-                    void (*)(CHIPMediaPlaybackClusterMediaRewindResponseCallback *)>
-        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaRewindResponseCallback>(callback),
-                  Platform::Delete<CHIPMediaPlaybackClusterMediaRewindResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaRewindResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributePrimary5X(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, MediaPlaybackCluster, mediaSeek)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject position)
+
+JNI_METHOD(void, ColorControlCluster, reportPrimary5XAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    MediaPlaybackCluster * cppCluster;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::MediaPlayback::Commands::MediaSeek::Type request;
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.position = static_cast<decltype(request.position)>(chip::JniReferences::GetInstance().LongToPrimitive(position));
+    err = cppCluster->ReportAttributePrimary5X(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribePrimary5YAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPMediaPlaybackClusterMediaSeekResponseCallback,
-                    void (*)(CHIPMediaPlaybackClusterMediaSeekResponseCallback *)>
-        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaSeekResponseCallback>(callback),
-                  Platform::Delete<CHIPMediaPlaybackClusterMediaSeekResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaSeekResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributePrimary5Y(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, MediaPlaybackCluster, mediaSkipBackward)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject deltaPositionMilliseconds)
+
+JNI_METHOD(void, ColorControlCluster, reportPrimary5YAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    MediaPlaybackCluster * cppCluster;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::MediaPlayback::Commands::MediaSkipBackward::Type request;
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.deltaPositionMilliseconds = static_cast<decltype(request.deltaPositionMilliseconds)>(
-        chip::JniReferences::GetInstance().LongToPrimitive(deltaPositionMilliseconds));
+    err = cppCluster->ReportAttributePrimary5Y(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribePrimary5IntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPMediaPlaybackClusterMediaSkipBackwardResponseCallback,
-                    void (*)(CHIPMediaPlaybackClusterMediaSkipBackwardResponseCallback *)>
-        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaSkipBackwardResponseCallback>(callback),
-                  Platform::Delete<CHIPMediaPlaybackClusterMediaSkipBackwardResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPMediaPlaybackClusterMediaSkipBackwardResponseCallbackType>::FromCancelable(
-        onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributePrimary5Intensity(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, MediaPlaybackCluster, mediaSkipForward)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject deltaPositionMilliseconds)
+
+JNI_METHOD(void, ColorControlCluster, reportPrimary5IntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    MediaPlaybackCluster * cppCluster;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::MediaPlayback::Commands::MediaSkipForward::Type request;
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.deltaPositionMilliseconds = static_cast<decltype(request.deltaPositionMilliseconds)>(
-        chip::JniReferences::GetInstance().LongToPrimitive(deltaPositionMilliseconds));
+    err = cppCluster->ReportAttributePrimary5Intensity(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribePrimary6XAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPMediaPlaybackClusterMediaSkipForwardResponseCallback,
-                    void (*)(CHIPMediaPlaybackClusterMediaSkipForwardResponseCallback *)>
-        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaSkipForwardResponseCallback>(callback),
-                  Platform::Delete<CHIPMediaPlaybackClusterMediaSkipForwardResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaSkipForwardResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributePrimary6X(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, MediaPlaybackCluster, mediaStartOver)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+
+JNI_METHOD(void, ColorControlCluster, reportPrimary6XAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    MediaPlaybackCluster * cppCluster;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::MediaPlayback::Commands::MediaStartOver::Type request;
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributePrimary6X(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribePrimary6YAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPMediaPlaybackClusterMediaStartOverResponseCallback,
-                    void (*)(CHIPMediaPlaybackClusterMediaStartOverResponseCallback *)>
-        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaStartOverResponseCallback>(callback),
-                  Platform::Delete<CHIPMediaPlaybackClusterMediaStartOverResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaStartOverResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributePrimary6Y(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, MediaPlaybackCluster, mediaStop)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+
+JNI_METHOD(void, ColorControlCluster, reportPrimary6YAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    MediaPlaybackCluster * cppCluster;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::MediaPlayback::Commands::MediaStop::Type request;
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributePrimary6Y(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribePrimary6IntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPMediaPlaybackClusterMediaStopResponseCallback,
-                    void (*)(CHIPMediaPlaybackClusterMediaStopResponseCallback *)>
-        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaStopResponseCallback>(callback),
-                  Platform::Delete<CHIPMediaPlaybackClusterMediaStopResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaStopResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributePrimary6Intensity(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, ModeSelectCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+
+JNI_METHOD(void, ColorControlCluster, reportPrimary6IntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    ModeSelectCluster * cppCluster = new ModeSelectCluster();
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributePrimary6Intensity(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
 }
 
-JNI_METHOD(void, ModeSelectCluster, changeToMode)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject newMode)
+JNI_METHOD(void, ColorControlCluster, writeWhitePointXAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ModeSelectCluster * cppCluster;
-
-    chip::app::Clusters::ModeSelect::Commands::ChangeToMode::Type request;
-
-    request.newMode = static_cast<decltype(request.newMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(newMode));
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ModeSelectCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
-    VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+    err = cppCluster->WriteAttributeWhitePointX(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-
-JNI_METHOD(void, ModeSelectCluster, subscribeCurrentModeAttribute)
+JNI_METHOD(void, ColorControlCluster, subscribeWhitePointXAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -6353,13 +6577,13 @@ JNI_METHOD(void, ModeSelectCluster, subscribeCurrentModeAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                 = CHIP_NO_ERROR;
-    ModeSelectCluster * cppCluster = reinterpret_cast<ModeSelectCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeCurrentMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+    err = cppCluster->SubscribeAttributeWhitePointX(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
                                                     static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
@@ -6369,22 +6593,22 @@ JNI_METHOD(void, ModeSelectCluster, subscribeCurrentModeAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, ModeSelectCluster, reportCurrentModeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ColorControlCluster, reportWhitePointXAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
-        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                 = CHIP_NO_ERROR;
-    ModeSelectCluster * cppCluster = reinterpret_cast<ModeSelectCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeCurrentMode(onReport->Cancel());
+    err = cppCluster->ReportAttributeWhitePointX(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
@@ -6392,7 +6616,7 @@ JNI_METHOD(void, ModeSelectCluster, reportCurrentModeAttribute)(JNIEnv * env, jo
     onReport.release();
 }
 
-JNI_METHOD(void, ModeSelectCluster, writeOnModeAttribute)
+JNI_METHOD(void, ColorControlCluster, writeWhitePointYAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
 {
     chip::DeviceLayer::StackLock lock;
@@ -6408,13 +6632,13 @@ JNI_METHOD(void, ModeSelectCluster, writeOnModeAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                 = CHIP_NO_ERROR;
-    ModeSelectCluster * cppCluster = reinterpret_cast<ModeSelectCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeOnMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    err = cppCluster->WriteAttributeWhitePointY(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
     VerifyOrReturn(
         err == CHIP_NO_ERROR,
         chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
@@ -6422,340 +6646,22132 @@ JNI_METHOD(void, ModeSelectCluster, writeOnModeAttribute)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, NetworkCommissioningCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    NetworkCommissioningCluster * cppCluster = new NetworkCommissioningCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(void, NetworkCommissioningCluster, addThreadNetwork)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray operationalDataset, jobject breadcrumb,
- jobject timeoutMs)
+JNI_METHOD(void, ColorControlCluster, subscribeWhitePointYAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    NetworkCommissioningCluster * cppCluster;
-
-    chip::app::Clusters::NetworkCommissioning::Commands::AddThreadNetwork::Type request;
-
-    request.operationalDataset = chip::JniByteArray(env, static_cast<jbyteArray>(operationalDataset)).byteSpan();
-    request.breadcrumb = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
-    request.timeoutMs  = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPNetworkCommissioningClusterAddThreadNetworkResponseCallback,
-                    void (*)(CHIPNetworkCommissioningClusterAddThreadNetworkResponseCallback *)>
-        onSuccess(Platform::New<CHIPNetworkCommissioningClusterAddThreadNetworkResponseCallback>(callback),
-                  Platform::Delete<CHIPNetworkCommissioningClusterAddThreadNetworkResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPNetworkCommissioningClusterAddThreadNetworkResponseCallbackType>::FromCancelable(
-        onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeWhitePointY(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, NetworkCommissioningCluster, addWiFiNetwork)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray ssid, jbyteArray credentials, jobject breadcrumb,
- jobject timeoutMs)
+
+JNI_METHOD(void, ColorControlCluster, reportWhitePointYAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    NetworkCommissioningCluster * cppCluster;
-
-    chip::app::Clusters::NetworkCommissioning::Commands::AddWiFiNetwork::Type request;
-
-    request.ssid        = chip::JniByteArray(env, static_cast<jbyteArray>(ssid)).byteSpan();
-    request.credentials = chip::JniByteArray(env, static_cast<jbyteArray>(credentials)).byteSpan();
-    request.breadcrumb  = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
-    request.timeoutMs   = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
-
-    std::unique_ptr<CHIPNetworkCommissioningClusterAddWiFiNetworkResponseCallback,
-                    void (*)(CHIPNetworkCommissioningClusterAddWiFiNetworkResponseCallback *)>
-        onSuccess(Platform::New<CHIPNetworkCommissioningClusterAddWiFiNetworkResponseCallback>(callback),
-                  Platform::Delete<CHIPNetworkCommissioningClusterAddWiFiNetworkResponseCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPNetworkCommissioningClusterAddWiFiNetworkResponseCallbackType>::FromCancelable(
-        onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributeWhitePointY(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-JNI_METHOD(void, NetworkCommissioningCluster, disableNetwork)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray networkID, jobject breadcrumb, jobject timeoutMs)
+
+JNI_METHOD(void, ColorControlCluster, writeColorPointRXAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    NetworkCommissioningCluster * cppCluster;
-
-    chip::app::Clusters::NetworkCommissioning::Commands::DisableNetwork::Type request;
-
-    request.networkID  = chip::JniByteArray(env, static_cast<jbyteArray>(networkID)).byteSpan();
-    request.breadcrumb = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
-    request.timeoutMs  = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPNetworkCommissioningClusterDisableNetworkResponseCallback,
-                    void (*)(CHIPNetworkCommissioningClusterDisableNetworkResponseCallback *)>
-        onSuccess(Platform::New<CHIPNetworkCommissioningClusterDisableNetworkResponseCallback>(callback),
-                  Platform::Delete<CHIPNetworkCommissioningClusterDisableNetworkResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPNetworkCommissioningClusterDisableNetworkResponseCallbackType>::FromCancelable(
-        onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
-    VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+    err = cppCluster->WriteAttributeColorPointRX(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, NetworkCommissioningCluster, enableNetwork)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray networkID, jobject breadcrumb, jobject timeoutMs)
+JNI_METHOD(void, ColorControlCluster, subscribeColorPointRXAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    NetworkCommissioningCluster * cppCluster;
-
-    chip::app::Clusters::NetworkCommissioning::Commands::EnableNetwork::Type request;
-
-    request.networkID  = chip::JniByteArray(env, static_cast<jbyteArray>(networkID)).byteSpan();
-    request.breadcrumb = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
-    request.timeoutMs  = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPNetworkCommissioningClusterEnableNetworkResponseCallback,
-                    void (*)(CHIPNetworkCommissioningClusterEnableNetworkResponseCallback *)>
-        onSuccess(Platform::New<CHIPNetworkCommissioningClusterEnableNetworkResponseCallback>(callback),
-                  Platform::Delete<CHIPNetworkCommissioningClusterEnableNetworkResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPNetworkCommissioningClusterEnableNetworkResponseCallbackType>::FromCancelable(
-        onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeColorPointRX(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, NetworkCommissioningCluster, removeNetwork)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray networkID, jobject breadcrumb, jobject timeoutMs)
+
+JNI_METHOD(void, ColorControlCluster, reportColorPointRXAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    NetworkCommissioningCluster * cppCluster;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::NetworkCommissioning::Commands::RemoveNetwork::Type request;
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.networkID  = chip::JniByteArray(env, static_cast<jbyteArray>(networkID)).byteSpan();
-    request.breadcrumb = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
-    request.timeoutMs  = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
+    err = cppCluster->ReportAttributeColorPointRX(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, writeColorPointRYAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPNetworkCommissioningClusterRemoveNetworkResponseCallback,
-                    void (*)(CHIPNetworkCommissioningClusterRemoveNetworkResponseCallback *)>
-        onSuccess(Platform::New<CHIPNetworkCommissioningClusterRemoveNetworkResponseCallback>(callback),
-                  Platform::Delete<CHIPNetworkCommissioningClusterRemoveNetworkResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPNetworkCommissioningClusterRemoveNetworkResponseCallbackType>::FromCancelable(
-        onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
-    VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+    err = cppCluster->WriteAttributeColorPointRY(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, NetworkCommissioningCluster, scanNetworks)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray ssid, jobject breadcrumb, jobject timeoutMs)
+JNI_METHOD(void, ColorControlCluster, subscribeColorPointRYAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    NetworkCommissioningCluster * cppCluster;
-
-    chip::app::Clusters::NetworkCommissioning::Commands::ScanNetworks::Type request;
-
-    request.ssid       = chip::JniByteArray(env, static_cast<jbyteArray>(ssid)).byteSpan();
-    request.breadcrumb = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
-    request.timeoutMs  = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPNetworkCommissioningClusterScanNetworksResponseCallback,
-                    void (*)(CHIPNetworkCommissioningClusterScanNetworksResponseCallback *)>
-        onSuccess(Platform::New<CHIPNetworkCommissioningClusterScanNetworksResponseCallback>(callback),
-                  Platform::Delete<CHIPNetworkCommissioningClusterScanNetworksResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPNetworkCommissioningClusterScanNetworksResponseCallbackType>::FromCancelable(
-        onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeColorPointRY(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, NetworkCommissioningCluster, updateThreadNetwork)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray operationalDataset, jobject breadcrumb,
- jobject timeoutMs)
+
+JNI_METHOD(void, ColorControlCluster, reportColorPointRYAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeColorPointRY(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, writeColorPointRIntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeColorPointRIntensity(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeColorPointRIntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeColorPointRIntensity(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportColorPointRIntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeColorPointRIntensity(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, writeColorPointGXAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeColorPointGX(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeColorPointGXAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeColorPointGX(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportColorPointGXAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeColorPointGX(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, writeColorPointGYAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeColorPointGY(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeColorPointGYAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeColorPointGY(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportColorPointGYAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeColorPointGY(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, writeColorPointGIntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeColorPointGIntensity(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeColorPointGIntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeColorPointGIntensity(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportColorPointGIntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeColorPointGIntensity(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, writeColorPointBXAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeColorPointBX(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeColorPointBXAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeColorPointBX(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportColorPointBXAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeColorPointBX(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, writeColorPointBYAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeColorPointBY(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeColorPointBYAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeColorPointBY(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportColorPointBYAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeColorPointBY(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, writeColorPointBIntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeColorPointBIntensity(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeColorPointBIntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeColorPointBIntensity(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportColorPointBIntensityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeColorPointBIntensity(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeEnhancedCurrentHueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeEnhancedCurrentHue(onSuccess->Cancel(), onFailure->Cancel(),
+                                                           static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportEnhancedCurrentHueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeEnhancedCurrentHue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeEnhancedColorModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeEnhancedColorMode(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportEnhancedColorModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeEnhancedColorMode(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeColorLoopActiveAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeColorLoopActive(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportColorLoopActiveAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeColorLoopActive(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeColorLoopDirectionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeColorLoopDirection(onSuccess->Cancel(), onFailure->Cancel(),
+                                                           static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportColorLoopDirectionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeColorLoopDirection(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeColorLoopTimeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeColorLoopTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportColorLoopTimeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeColorLoopTime(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeColorLoopStartEnhancedHueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeColorLoopStartEnhancedHue(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportColorLoopStartEnhancedHueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeColorLoopStartEnhancedHue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeColorLoopStoredEnhancedHueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeColorLoopStoredEnhancedHue(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportColorLoopStoredEnhancedHueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeColorLoopStoredEnhancedHue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeColorCapabilitiesAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeColorCapabilities(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportColorCapabilitiesAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeColorCapabilities(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeColorTempPhysicalMinAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeColorTempPhysicalMin(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportColorTempPhysicalMinAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeColorTempPhysicalMin(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeColorTempPhysicalMaxAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeColorTempPhysicalMax(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportColorTempPhysicalMaxAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeColorTempPhysicalMax(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeCoupleColorTempToLevelMinMiredsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeCoupleColorTempToLevelMinMireds(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportCoupleColorTempToLevelMinMiredsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeCoupleColorTempToLevelMinMireds(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, writeStartUpColorTemperatureMiredsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeStartUpColorTemperatureMireds(onSuccess->Cancel(), onFailure->Cancel(),
+                                                                  static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeStartUpColorTemperatureMiredsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeStartUpColorTemperatureMireds(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportStartUpColorTemperatureMiredsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeStartUpColorTemperatureMireds(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ColorControlCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ColorControlCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    ColorControlCluster * cppCluster = reinterpret_cast<ColorControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, ContentLauncherCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    ContentLauncherCluster * cppCluster = new ContentLauncherCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, ContentLauncherCluster, launchContent)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject autoPlay, jstring data)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ContentLauncherCluster * cppCluster;
+
+    chip::app::Clusters::ContentLauncher::Commands::LaunchContent::Type request;
+
+    request.autoPlay = static_cast<decltype(request.autoPlay)>(chip::JniReferences::GetInstance().BooleanToPrimitive(autoPlay));
+    request.data     = chip::JniUtfString(env, static_cast<jstring>(data)).charSpan();
+
+    std::unique_ptr<CHIPContentLauncherClusterLaunchContentResponseCallback,
+                    void (*)(CHIPContentLauncherClusterLaunchContentResponseCallback *)>
+        onSuccess(Platform::New<CHIPContentLauncherClusterLaunchContentResponseCallback>(callback),
+                  Platform::Delete<CHIPContentLauncherClusterLaunchContentResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<ContentLauncherCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPContentLauncherClusterLaunchContentResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ContentLauncherCluster, launchURL)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jstring contentURL, jstring displayString)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ContentLauncherCluster * cppCluster;
+
+    chip::app::Clusters::ContentLauncher::Commands::LaunchURL::Type request;
+
+    request.contentURL    = chip::JniUtfString(env, static_cast<jstring>(contentURL)).charSpan();
+    request.displayString = chip::JniUtfString(env, static_cast<jstring>(displayString)).charSpan();
+
+    std::unique_ptr<CHIPContentLauncherClusterLaunchURLResponseCallback,
+                    void (*)(CHIPContentLauncherClusterLaunchURLResponseCallback *)>
+        onSuccess(Platform::New<CHIPContentLauncherClusterLaunchURLResponseCallback>(callback),
+                  Platform::Delete<CHIPContentLauncherClusterLaunchURLResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<ContentLauncherCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPContentLauncherClusterLaunchURLResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ContentLauncherCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                      = CHIP_NO_ERROR;
+    ContentLauncherCluster * cppCluster = reinterpret_cast<ContentLauncherCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ContentLauncherCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                      = CHIP_NO_ERROR;
+    ContentLauncherCluster * cppCluster = reinterpret_cast<ContentLauncherCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, DescriptorCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    DescriptorCluster * cppCluster = new DescriptorCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, DescriptorCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    DescriptorCluster * cppCluster = reinterpret_cast<DescriptorCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, DescriptorCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    DescriptorCluster * cppCluster = reinterpret_cast<DescriptorCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, DiagnosticLogsCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    DiagnosticLogsCluster * cppCluster = new DiagnosticLogsCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, DiagnosticLogsCluster, retrieveLogsRequest)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject intent, jobject requestedProtocol,
+ jbyteArray transferFileDesignator)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DiagnosticLogsCluster * cppCluster;
+
+    chip::app::Clusters::DiagnosticLogs::Commands::RetrieveLogsRequest::Type request;
+
+    request.intent = static_cast<decltype(request.intent)>(chip::JniReferences::GetInstance().IntegerToPrimitive(intent));
+    request.requestedProtocol =
+        static_cast<decltype(request.requestedProtocol)>(chip::JniReferences::GetInstance().IntegerToPrimitive(requestedProtocol));
+    request.transferFileDesignator = chip::JniByteArray(env, static_cast<jbyteArray>(transferFileDesignator)).byteSpan();
+
+    std::unique_ptr<CHIPDiagnosticLogsClusterRetrieveLogsResponseCallback,
+                    void (*)(CHIPDiagnosticLogsClusterRetrieveLogsResponseCallback *)>
+        onSuccess(Platform::New<CHIPDiagnosticLogsClusterRetrieveLogsResponseCallback>(callback),
+                  Platform::Delete<CHIPDiagnosticLogsClusterRetrieveLogsResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DiagnosticLogsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPDiagnosticLogsClusterRetrieveLogsResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(jlong, DoorLockCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    DoorLockCluster * cppCluster = new DoorLockCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, DoorLockCluster, clearAllPins)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::ClearAllPins::Type request;
+
+    std::unique_ptr<CHIPDoorLockClusterClearAllPinsResponseCallback, void (*)(CHIPDoorLockClusterClearAllPinsResponseCallback *)>
+        onSuccess(Platform::New<CHIPDoorLockClusterClearAllPinsResponseCallback>(callback),
+                  Platform::Delete<CHIPDoorLockClusterClearAllPinsResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPDoorLockClusterClearAllPinsResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, clearAllRfids)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::ClearAllRfids::Type request;
+
+    std::unique_ptr<CHIPDoorLockClusterClearAllRfidsResponseCallback, void (*)(CHIPDoorLockClusterClearAllRfidsResponseCallback *)>
+        onSuccess(Platform::New<CHIPDoorLockClusterClearAllRfidsResponseCallback>(callback),
+                  Platform::Delete<CHIPDoorLockClusterClearAllRfidsResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPDoorLockClusterClearAllRfidsResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, clearHolidaySchedule)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject scheduleId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::ClearHolidaySchedule::Type request;
+
+    request.scheduleId =
+        static_cast<decltype(request.scheduleId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(scheduleId));
+
+    std::unique_ptr<CHIPDoorLockClusterClearHolidayScheduleResponseCallback,
+                    void (*)(CHIPDoorLockClusterClearHolidayScheduleResponseCallback *)>
+        onSuccess(Platform::New<CHIPDoorLockClusterClearHolidayScheduleResponseCallback>(callback),
+                  Platform::Delete<CHIPDoorLockClusterClearHolidayScheduleResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPDoorLockClusterClearHolidayScheduleResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, clearPin)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject userId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::ClearPin::Type request;
+
+    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+
+    std::unique_ptr<CHIPDoorLockClusterClearPinResponseCallback, void (*)(CHIPDoorLockClusterClearPinResponseCallback *)> onSuccess(
+        Platform::New<CHIPDoorLockClusterClearPinResponseCallback>(callback),
+        Platform::Delete<CHIPDoorLockClusterClearPinResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDoorLockClusterClearPinResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, clearRfid)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject userId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::ClearRfid::Type request;
+
+    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+
+    std::unique_ptr<CHIPDoorLockClusterClearRfidResponseCallback, void (*)(CHIPDoorLockClusterClearRfidResponseCallback *)>
+        onSuccess(Platform::New<CHIPDoorLockClusterClearRfidResponseCallback>(callback),
+                  Platform::Delete<CHIPDoorLockClusterClearRfidResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPDoorLockClusterClearRfidResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, clearWeekdaySchedule)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject scheduleId, jobject userId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::ClearWeekdaySchedule::Type request;
+
+    request.scheduleId =
+        static_cast<decltype(request.scheduleId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(scheduleId));
+    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+
+    std::unique_ptr<CHIPDoorLockClusterClearWeekdayScheduleResponseCallback,
+                    void (*)(CHIPDoorLockClusterClearWeekdayScheduleResponseCallback *)>
+        onSuccess(Platform::New<CHIPDoorLockClusterClearWeekdayScheduleResponseCallback>(callback),
+                  Platform::Delete<CHIPDoorLockClusterClearWeekdayScheduleResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPDoorLockClusterClearWeekdayScheduleResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, clearYeardaySchedule)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject scheduleId, jobject userId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::ClearYeardaySchedule::Type request;
+
+    request.scheduleId =
+        static_cast<decltype(request.scheduleId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(scheduleId));
+    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+
+    std::unique_ptr<CHIPDoorLockClusterClearYeardayScheduleResponseCallback,
+                    void (*)(CHIPDoorLockClusterClearYeardayScheduleResponseCallback *)>
+        onSuccess(Platform::New<CHIPDoorLockClusterClearYeardayScheduleResponseCallback>(callback),
+                  Platform::Delete<CHIPDoorLockClusterClearYeardayScheduleResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPDoorLockClusterClearYeardayScheduleResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, getHolidaySchedule)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject scheduleId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::GetHolidaySchedule::Type request;
+
+    request.scheduleId =
+        static_cast<decltype(request.scheduleId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(scheduleId));
+
+    std::unique_ptr<CHIPDoorLockClusterGetHolidayScheduleResponseCallback,
+                    void (*)(CHIPDoorLockClusterGetHolidayScheduleResponseCallback *)>
+        onSuccess(Platform::New<CHIPDoorLockClusterGetHolidayScheduleResponseCallback>(callback),
+                  Platform::Delete<CHIPDoorLockClusterGetHolidayScheduleResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPDoorLockClusterGetHolidayScheduleResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, getLogRecord)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject logIndex)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::GetLogRecord::Type request;
+
+    request.logIndex = static_cast<decltype(request.logIndex)>(chip::JniReferences::GetInstance().IntegerToPrimitive(logIndex));
+
+    std::unique_ptr<CHIPDoorLockClusterGetLogRecordResponseCallback, void (*)(CHIPDoorLockClusterGetLogRecordResponseCallback *)>
+        onSuccess(Platform::New<CHIPDoorLockClusterGetLogRecordResponseCallback>(callback),
+                  Platform::Delete<CHIPDoorLockClusterGetLogRecordResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPDoorLockClusterGetLogRecordResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, getPin)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject userId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::GetPin::Type request;
+
+    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+
+    std::unique_ptr<CHIPDoorLockClusterGetPinResponseCallback, void (*)(CHIPDoorLockClusterGetPinResponseCallback *)> onSuccess(
+        Platform::New<CHIPDoorLockClusterGetPinResponseCallback>(callback),
+        Platform::Delete<CHIPDoorLockClusterGetPinResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDoorLockClusterGetPinResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, getRfid)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject userId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::GetRfid::Type request;
+
+    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+
+    std::unique_ptr<CHIPDoorLockClusterGetRfidResponseCallback, void (*)(CHIPDoorLockClusterGetRfidResponseCallback *)> onSuccess(
+        Platform::New<CHIPDoorLockClusterGetRfidResponseCallback>(callback),
+        Platform::Delete<CHIPDoorLockClusterGetRfidResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDoorLockClusterGetRfidResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, getUserType)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject userId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::GetUserType::Type request;
+
+    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+
+    std::unique_ptr<CHIPDoorLockClusterGetUserTypeResponseCallback, void (*)(CHIPDoorLockClusterGetUserTypeResponseCallback *)>
+        onSuccess(Platform::New<CHIPDoorLockClusterGetUserTypeResponseCallback>(callback),
+                  Platform::Delete<CHIPDoorLockClusterGetUserTypeResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPDoorLockClusterGetUserTypeResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, getWeekdaySchedule)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject scheduleId, jobject userId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::GetWeekdaySchedule::Type request;
+
+    request.scheduleId =
+        static_cast<decltype(request.scheduleId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(scheduleId));
+    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+
+    std::unique_ptr<CHIPDoorLockClusterGetWeekdayScheduleResponseCallback,
+                    void (*)(CHIPDoorLockClusterGetWeekdayScheduleResponseCallback *)>
+        onSuccess(Platform::New<CHIPDoorLockClusterGetWeekdayScheduleResponseCallback>(callback),
+                  Platform::Delete<CHIPDoorLockClusterGetWeekdayScheduleResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPDoorLockClusterGetWeekdayScheduleResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, getYeardaySchedule)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject scheduleId, jobject userId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::GetYeardaySchedule::Type request;
+
+    request.scheduleId =
+        static_cast<decltype(request.scheduleId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(scheduleId));
+    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+
+    std::unique_ptr<CHIPDoorLockClusterGetYeardayScheduleResponseCallback,
+                    void (*)(CHIPDoorLockClusterGetYeardayScheduleResponseCallback *)>
+        onSuccess(Platform::New<CHIPDoorLockClusterGetYeardayScheduleResponseCallback>(callback),
+                  Platform::Delete<CHIPDoorLockClusterGetYeardayScheduleResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPDoorLockClusterGetYeardayScheduleResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, lockDoor)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray pin)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::LockDoor::Type request;
+
+    request.pin = chip::JniByteArray(env, static_cast<jbyteArray>(pin)).byteSpan();
+
+    std::unique_ptr<CHIPDoorLockClusterLockDoorResponseCallback, void (*)(CHIPDoorLockClusterLockDoorResponseCallback *)> onSuccess(
+        Platform::New<CHIPDoorLockClusterLockDoorResponseCallback>(callback),
+        Platform::Delete<CHIPDoorLockClusterLockDoorResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDoorLockClusterLockDoorResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, setHolidaySchedule)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject scheduleId, jobject localStartTime, jobject localEndTime,
+ jobject operatingModeDuringHoliday)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::SetHolidaySchedule::Type request;
+
+    request.scheduleId =
+        static_cast<decltype(request.scheduleId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(scheduleId));
+    request.localStartTime =
+        static_cast<decltype(request.localStartTime)>(chip::JniReferences::GetInstance().LongToPrimitive(localStartTime));
+    request.localEndTime =
+        static_cast<decltype(request.localEndTime)>(chip::JniReferences::GetInstance().LongToPrimitive(localEndTime));
+    request.operatingModeDuringHoliday = static_cast<decltype(request.operatingModeDuringHoliday)>(
+        chip::JniReferences::GetInstance().IntegerToPrimitive(operatingModeDuringHoliday));
+
+    std::unique_ptr<CHIPDoorLockClusterSetHolidayScheduleResponseCallback,
+                    void (*)(CHIPDoorLockClusterSetHolidayScheduleResponseCallback *)>
+        onSuccess(Platform::New<CHIPDoorLockClusterSetHolidayScheduleResponseCallback>(callback),
+                  Platform::Delete<CHIPDoorLockClusterSetHolidayScheduleResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPDoorLockClusterSetHolidayScheduleResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, setPin)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject userId, jobject userStatus, jobject userType,
+ jbyteArray pin)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::SetPin::Type request;
+
+    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+    request.userStatus =
+        static_cast<decltype(request.userStatus)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userStatus));
+    request.userType = static_cast<decltype(request.userType)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userType));
+    request.pin      = chip::JniByteArray(env, static_cast<jbyteArray>(pin)).byteSpan();
+
+    std::unique_ptr<CHIPDoorLockClusterSetPinResponseCallback, void (*)(CHIPDoorLockClusterSetPinResponseCallback *)> onSuccess(
+        Platform::New<CHIPDoorLockClusterSetPinResponseCallback>(callback),
+        Platform::Delete<CHIPDoorLockClusterSetPinResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDoorLockClusterSetPinResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, setRfid)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject userId, jobject userStatus, jobject userType,
+ jbyteArray id)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::SetRfid::Type request;
+
+    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+    request.userStatus =
+        static_cast<decltype(request.userStatus)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userStatus));
+    request.userType = static_cast<decltype(request.userType)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userType));
+    request.id       = chip::JniByteArray(env, static_cast<jbyteArray>(id)).byteSpan();
+
+    std::unique_ptr<CHIPDoorLockClusterSetRfidResponseCallback, void (*)(CHIPDoorLockClusterSetRfidResponseCallback *)> onSuccess(
+        Platform::New<CHIPDoorLockClusterSetRfidResponseCallback>(callback),
+        Platform::Delete<CHIPDoorLockClusterSetRfidResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDoorLockClusterSetRfidResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, setUserType)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject userId, jobject userType)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::SetUserType::Type request;
+
+    request.userId   = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+    request.userType = static_cast<decltype(request.userType)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userType));
+
+    std::unique_ptr<CHIPDoorLockClusterSetUserTypeResponseCallback, void (*)(CHIPDoorLockClusterSetUserTypeResponseCallback *)>
+        onSuccess(Platform::New<CHIPDoorLockClusterSetUserTypeResponseCallback>(callback),
+                  Platform::Delete<CHIPDoorLockClusterSetUserTypeResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPDoorLockClusterSetUserTypeResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, setWeekdaySchedule)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject scheduleId, jobject userId, jobject daysMask,
+ jobject startHour, jobject startMinute, jobject endHour, jobject endMinute)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::SetWeekdaySchedule::Type request;
+
+    request.scheduleId =
+        static_cast<decltype(request.scheduleId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(scheduleId));
+    request.userId    = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+    request.daysMask  = static_cast<decltype(request.daysMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(daysMask));
+    request.startHour = static_cast<decltype(request.startHour)>(chip::JniReferences::GetInstance().IntegerToPrimitive(startHour));
+    request.startMinute =
+        static_cast<decltype(request.startMinute)>(chip::JniReferences::GetInstance().IntegerToPrimitive(startMinute));
+    request.endHour   = static_cast<decltype(request.endHour)>(chip::JniReferences::GetInstance().IntegerToPrimitive(endHour));
+    request.endMinute = static_cast<decltype(request.endMinute)>(chip::JniReferences::GetInstance().IntegerToPrimitive(endMinute));
+
+    std::unique_ptr<CHIPDoorLockClusterSetWeekdayScheduleResponseCallback,
+                    void (*)(CHIPDoorLockClusterSetWeekdayScheduleResponseCallback *)>
+        onSuccess(Platform::New<CHIPDoorLockClusterSetWeekdayScheduleResponseCallback>(callback),
+                  Platform::Delete<CHIPDoorLockClusterSetWeekdayScheduleResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPDoorLockClusterSetWeekdayScheduleResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, setYeardaySchedule)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject scheduleId, jobject userId, jobject localStartTime,
+ jobject localEndTime)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::SetYeardaySchedule::Type request;
+
+    request.scheduleId =
+        static_cast<decltype(request.scheduleId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(scheduleId));
+    request.userId = static_cast<decltype(request.userId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(userId));
+    request.localStartTime =
+        static_cast<decltype(request.localStartTime)>(chip::JniReferences::GetInstance().LongToPrimitive(localStartTime));
+    request.localEndTime =
+        static_cast<decltype(request.localEndTime)>(chip::JniReferences::GetInstance().LongToPrimitive(localEndTime));
+
+    std::unique_ptr<CHIPDoorLockClusterSetYeardayScheduleResponseCallback,
+                    void (*)(CHIPDoorLockClusterSetYeardayScheduleResponseCallback *)>
+        onSuccess(Platform::New<CHIPDoorLockClusterSetYeardayScheduleResponseCallback>(callback),
+                  Platform::Delete<CHIPDoorLockClusterSetYeardayScheduleResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPDoorLockClusterSetYeardayScheduleResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, unlockDoor)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray pin)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::UnlockDoor::Type request;
+
+    request.pin = chip::JniByteArray(env, static_cast<jbyteArray>(pin)).byteSpan();
+
+    std::unique_ptr<CHIPDoorLockClusterUnlockDoorResponseCallback, void (*)(CHIPDoorLockClusterUnlockDoorResponseCallback *)>
+        onSuccess(Platform::New<CHIPDoorLockClusterUnlockDoorResponseCallback>(callback),
+                  Platform::Delete<CHIPDoorLockClusterUnlockDoorResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPDoorLockClusterUnlockDoorResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, unlockWithTimeout)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject timeoutInSeconds, jbyteArray pin)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster;
+
+    chip::app::Clusters::DoorLock::Commands::UnlockWithTimeout::Type request;
+
+    request.timeoutInSeconds =
+        static_cast<decltype(request.timeoutInSeconds)>(chip::JniReferences::GetInstance().IntegerToPrimitive(timeoutInSeconds));
+    request.pin = chip::JniByteArray(env, static_cast<jbyteArray>(pin)).byteSpan();
+
+    std::unique_ptr<CHIPDoorLockClusterUnlockWithTimeoutResponseCallback,
+                    void (*)(CHIPDoorLockClusterUnlockWithTimeoutResponseCallback *)>
+        onSuccess(Platform::New<CHIPDoorLockClusterUnlockWithTimeoutResponseCallback>(callback),
+                  Platform::Delete<CHIPDoorLockClusterUnlockWithTimeoutResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPDoorLockClusterUnlockWithTimeoutResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, DoorLockCluster, subscribeLockStateAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err               = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeLockState(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, DoorLockCluster, reportLockStateAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err               = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeLockState(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, DoorLockCluster, subscribeLockTypeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err               = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeLockType(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                 static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, DoorLockCluster, reportLockTypeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err               = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeLockType(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, DoorLockCluster, subscribeActuatorEnabledAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err               = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeActuatorEnabled(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, DoorLockCluster, reportActuatorEnabledAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPBooleanAttributeCallback, void (*)(CHIPBooleanAttributeCallback *)> onReport(
+        Platform::New<CHIPBooleanAttributeCallback>(callback, true), Platform::Delete<CHIPBooleanAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err               = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeActuatorEnabled(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, DoorLockCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err               = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, DoorLockCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err               = CHIP_NO_ERROR;
+    DoorLockCluster * cppCluster = reinterpret_cast<DoorLockCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, ElectricalMeasurementCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    ElectricalMeasurementCluster * cppCluster = new ElectricalMeasurementCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, ElectricalMeasurementCluster, subscribeMeasurementTypeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMeasurementType(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ElectricalMeasurementCluster, reportMeasurementTypeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMeasurementType(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ElectricalMeasurementCluster, subscribeTotalActivePowerAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeTotalActivePower(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ElectricalMeasurementCluster, reportTotalActivePowerAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32sAttributeCallback, void (*)(CHIPInt32sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32sAttributeCallback>(callback, true), Platform::Delete<CHIPInt32sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeTotalActivePower(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ElectricalMeasurementCluster, subscribeRmsVoltageAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeRmsVoltage(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ElectricalMeasurementCluster, reportRmsVoltageAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeRmsVoltage(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ElectricalMeasurementCluster, subscribeRmsVoltageMinAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeRmsVoltageMin(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ElectricalMeasurementCluster, reportRmsVoltageMinAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeRmsVoltageMin(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ElectricalMeasurementCluster, subscribeRmsVoltageMaxAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeRmsVoltageMax(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ElectricalMeasurementCluster, reportRmsVoltageMaxAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeRmsVoltageMax(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ElectricalMeasurementCluster, subscribeRmsCurrentAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeRmsCurrent(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ElectricalMeasurementCluster, reportRmsCurrentAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeRmsCurrent(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ElectricalMeasurementCluster, subscribeRmsCurrentMinAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeRmsCurrentMin(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ElectricalMeasurementCluster, reportRmsCurrentMinAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeRmsCurrentMin(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ElectricalMeasurementCluster, subscribeRmsCurrentMaxAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeRmsCurrentMax(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ElectricalMeasurementCluster, reportRmsCurrentMaxAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeRmsCurrentMax(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ElectricalMeasurementCluster, subscribeActivePowerAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeActivePower(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ElectricalMeasurementCluster, reportActivePowerAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeActivePower(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ElectricalMeasurementCluster, subscribeActivePowerMinAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeActivePowerMin(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ElectricalMeasurementCluster, reportActivePowerMinAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeActivePowerMin(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ElectricalMeasurementCluster, subscribeActivePowerMaxAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeActivePowerMax(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ElectricalMeasurementCluster, reportActivePowerMaxAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeActivePowerMax(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ElectricalMeasurementCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ElectricalMeasurementCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                            = CHIP_NO_ERROR;
+    ElectricalMeasurementCluster * cppCluster = reinterpret_cast<ElectricalMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, EthernetNetworkDiagnosticsCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    EthernetNetworkDiagnosticsCluster * cppCluster = new EthernetNetworkDiagnosticsCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, resetCounts)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster;
+
+    chip::app::Clusters::EthernetNetworkDiagnostics::Commands::ResetCounts::Type request;
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, subscribePHYRateAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributePHYRate(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, reportPHYRateAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributePHYRate(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, subscribeFullDuplexAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeFullDuplex(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, reportFullDuplexAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPBooleanAttributeCallback, void (*)(CHIPBooleanAttributeCallback *)> onReport(
+        Platform::New<CHIPBooleanAttributeCallback>(callback, true), Platform::Delete<CHIPBooleanAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeFullDuplex(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, subscribePacketRxCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributePacketRxCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, reportPacketRxCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributePacketRxCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, subscribePacketTxCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributePacketTxCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, reportPacketTxCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributePacketTxCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, subscribeTxErrCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeTxErrCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, reportTxErrCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeTxErrCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, subscribeCollisionCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeCollisionCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, reportCollisionCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeCollisionCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, subscribeOverrunCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeOverrunCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, reportOverrunCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeOverrunCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, subscribeCarrierDetectAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeCarrierDetect(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, reportCarrierDetectAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPBooleanAttributeCallback, void (*)(CHIPBooleanAttributeCallback *)> onReport(
+        Platform::New<CHIPBooleanAttributeCallback>(callback, true), Platform::Delete<CHIPBooleanAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeCarrierDetect(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, subscribeTimeSinceResetAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeTimeSinceReset(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, reportTimeSinceResetAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeTimeSinceReset(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, EthernetNetworkDiagnosticsCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    EthernetNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<EthernetNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, FixedLabelCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    FixedLabelCluster * cppCluster = new FixedLabelCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, FixedLabelCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    FixedLabelCluster * cppCluster = reinterpret_cast<FixedLabelCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, FixedLabelCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    FixedLabelCluster * cppCluster = reinterpret_cast<FixedLabelCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, FlowMeasurementCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    FlowMeasurementCluster * cppCluster = new FlowMeasurementCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, FlowMeasurementCluster, subscribeMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                      = CHIP_NO_ERROR;
+    FlowMeasurementCluster * cppCluster = reinterpret_cast<FlowMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMeasuredValue(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, FlowMeasurementCluster, reportMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                      = CHIP_NO_ERROR;
+    FlowMeasurementCluster * cppCluster = reinterpret_cast<FlowMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMeasuredValue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, FlowMeasurementCluster, subscribeMinMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                      = CHIP_NO_ERROR;
+    FlowMeasurementCluster * cppCluster = reinterpret_cast<FlowMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMinMeasuredValue(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, FlowMeasurementCluster, reportMinMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                      = CHIP_NO_ERROR;
+    FlowMeasurementCluster * cppCluster = reinterpret_cast<FlowMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMinMeasuredValue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, FlowMeasurementCluster, subscribeMaxMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                      = CHIP_NO_ERROR;
+    FlowMeasurementCluster * cppCluster = reinterpret_cast<FlowMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMaxMeasuredValue(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, FlowMeasurementCluster, reportMaxMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                      = CHIP_NO_ERROR;
+    FlowMeasurementCluster * cppCluster = reinterpret_cast<FlowMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMaxMeasuredValue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, FlowMeasurementCluster, subscribeToleranceAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                      = CHIP_NO_ERROR;
+    FlowMeasurementCluster * cppCluster = reinterpret_cast<FlowMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeTolerance(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, FlowMeasurementCluster, reportToleranceAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                      = CHIP_NO_ERROR;
+    FlowMeasurementCluster * cppCluster = reinterpret_cast<FlowMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeTolerance(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, FlowMeasurementCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                      = CHIP_NO_ERROR;
+    FlowMeasurementCluster * cppCluster = reinterpret_cast<FlowMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, FlowMeasurementCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                      = CHIP_NO_ERROR;
+    FlowMeasurementCluster * cppCluster = reinterpret_cast<FlowMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, GeneralCommissioningCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    GeneralCommissioningCluster * cppCluster = new GeneralCommissioningCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, GeneralCommissioningCluster, armFailSafe)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject expiryLengthSeconds, jobject breadcrumb, jobject timeoutMs)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    GeneralCommissioningCluster * cppCluster;
+
+    chip::app::Clusters::GeneralCommissioning::Commands::ArmFailSafe::Type request;
+
+    request.expiryLengthSeconds = static_cast<decltype(request.expiryLengthSeconds)>(
+        chip::JniReferences::GetInstance().IntegerToPrimitive(expiryLengthSeconds));
+    request.breadcrumb = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
+    request.timeoutMs  = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
+
+    std::unique_ptr<CHIPGeneralCommissioningClusterArmFailSafeResponseCallback,
+                    void (*)(CHIPGeneralCommissioningClusterArmFailSafeResponseCallback *)>
+        onSuccess(Platform::New<CHIPGeneralCommissioningClusterArmFailSafeResponseCallback>(callback),
+                  Platform::Delete<CHIPGeneralCommissioningClusterArmFailSafeResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<GeneralCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPGeneralCommissioningClusterArmFailSafeResponseCallbackType>::FromCancelable(
+        onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, GeneralCommissioningCluster, commissioningComplete)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    GeneralCommissioningCluster * cppCluster;
+
+    chip::app::Clusters::GeneralCommissioning::Commands::CommissioningComplete::Type request;
+
+    std::unique_ptr<CHIPGeneralCommissioningClusterCommissioningCompleteResponseCallback,
+                    void (*)(CHIPGeneralCommissioningClusterCommissioningCompleteResponseCallback *)>
+        onSuccess(Platform::New<CHIPGeneralCommissioningClusterCommissioningCompleteResponseCallback>(callback),
+                  Platform::Delete<CHIPGeneralCommissioningClusterCommissioningCompleteResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<GeneralCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPGeneralCommissioningClusterCommissioningCompleteResponseCallbackType>::FromCancelable(
+            onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, GeneralCommissioningCluster, setRegulatoryConfig)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject location, jstring countryCode, jobject breadcrumb,
+ jobject timeoutMs)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    GeneralCommissioningCluster * cppCluster;
+
+    chip::app::Clusters::GeneralCommissioning::Commands::SetRegulatoryConfig::Type request;
+
+    request.location    = static_cast<decltype(request.location)>(chip::JniReferences::GetInstance().IntegerToPrimitive(location));
+    request.countryCode = chip::JniUtfString(env, static_cast<jstring>(countryCode)).charSpan();
+    request.breadcrumb  = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
+    request.timeoutMs   = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
+
+    std::unique_ptr<CHIPGeneralCommissioningClusterSetRegulatoryConfigResponseCallback,
+                    void (*)(CHIPGeneralCommissioningClusterSetRegulatoryConfigResponseCallback *)>
+        onSuccess(Platform::New<CHIPGeneralCommissioningClusterSetRegulatoryConfigResponseCallback>(callback),
+                  Platform::Delete<CHIPGeneralCommissioningClusterSetRegulatoryConfigResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<GeneralCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPGeneralCommissioningClusterSetRegulatoryConfigResponseCallbackType>::FromCancelable(
+            onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, GeneralCommissioningCluster, writeBreadcrumbAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                           = CHIP_NO_ERROR;
+    GeneralCommissioningCluster * cppCluster = reinterpret_cast<GeneralCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeBreadcrumb(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint64_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, GeneralCommissioningCluster, subscribeBreadcrumbAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                           = CHIP_NO_ERROR;
+    GeneralCommissioningCluster * cppCluster = reinterpret_cast<GeneralCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeBreadcrumb(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, GeneralCommissioningCluster, reportBreadcrumbAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                           = CHIP_NO_ERROR;
+    GeneralCommissioningCluster * cppCluster = reinterpret_cast<GeneralCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeBreadcrumb(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, GeneralCommissioningCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                           = CHIP_NO_ERROR;
+    GeneralCommissioningCluster * cppCluster = reinterpret_cast<GeneralCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, GeneralCommissioningCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                           = CHIP_NO_ERROR;
+    GeneralCommissioningCluster * cppCluster = reinterpret_cast<GeneralCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, GeneralDiagnosticsCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    GeneralDiagnosticsCluster * cppCluster = new GeneralDiagnosticsCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, GeneralDiagnosticsCluster, subscribeRebootCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                         = CHIP_NO_ERROR;
+    GeneralDiagnosticsCluster * cppCluster = reinterpret_cast<GeneralDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeRebootCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, GeneralDiagnosticsCluster, reportRebootCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                         = CHIP_NO_ERROR;
+    GeneralDiagnosticsCluster * cppCluster = reinterpret_cast<GeneralDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeRebootCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, GeneralDiagnosticsCluster, subscribeUpTimeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                         = CHIP_NO_ERROR;
+    GeneralDiagnosticsCluster * cppCluster = reinterpret_cast<GeneralDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeUpTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                               static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, GeneralDiagnosticsCluster, reportUpTimeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                         = CHIP_NO_ERROR;
+    GeneralDiagnosticsCluster * cppCluster = reinterpret_cast<GeneralDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeUpTime(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, GeneralDiagnosticsCluster, subscribeTotalOperationalHoursAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                         = CHIP_NO_ERROR;
+    GeneralDiagnosticsCluster * cppCluster = reinterpret_cast<GeneralDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeTotalOperationalHours(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, GeneralDiagnosticsCluster, reportTotalOperationalHoursAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                         = CHIP_NO_ERROR;
+    GeneralDiagnosticsCluster * cppCluster = reinterpret_cast<GeneralDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeTotalOperationalHours(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, GeneralDiagnosticsCluster, subscribeBootReasonsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                         = CHIP_NO_ERROR;
+    GeneralDiagnosticsCluster * cppCluster = reinterpret_cast<GeneralDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeBootReasons(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, GeneralDiagnosticsCluster, reportBootReasonsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                         = CHIP_NO_ERROR;
+    GeneralDiagnosticsCluster * cppCluster = reinterpret_cast<GeneralDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeBootReasons(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, GeneralDiagnosticsCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                         = CHIP_NO_ERROR;
+    GeneralDiagnosticsCluster * cppCluster = reinterpret_cast<GeneralDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, GeneralDiagnosticsCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                         = CHIP_NO_ERROR;
+    GeneralDiagnosticsCluster * cppCluster = reinterpret_cast<GeneralDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, GroupKeyManagementCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    GroupKeyManagementCluster * cppCluster = new GroupKeyManagementCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, GroupKeyManagementCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                         = CHIP_NO_ERROR;
+    GroupKeyManagementCluster * cppCluster = reinterpret_cast<GroupKeyManagementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, GroupKeyManagementCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                         = CHIP_NO_ERROR;
+    GroupKeyManagementCluster * cppCluster = reinterpret_cast<GroupKeyManagementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, GroupsCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    GroupsCluster * cppCluster = new GroupsCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, GroupsCluster, addGroup)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId, jstring groupName)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    GroupsCluster * cppCluster;
+
+    chip::app::Clusters::Groups::Commands::AddGroup::Type request;
+
+    request.groupId   = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
+    request.groupName = chip::JniUtfString(env, static_cast<jstring>(groupName)).charSpan();
+
+    std::unique_ptr<CHIPGroupsClusterAddGroupResponseCallback, void (*)(CHIPGroupsClusterAddGroupResponseCallback *)> onSuccess(
+        Platform::New<CHIPGroupsClusterAddGroupResponseCallback>(callback),
+        Platform::Delete<CHIPGroupsClusterAddGroupResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<GroupsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPGroupsClusterAddGroupResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, GroupsCluster, addGroupIfIdentifying)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId, jstring groupName)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    GroupsCluster * cppCluster;
+
+    chip::app::Clusters::Groups::Commands::AddGroupIfIdentifying::Type request;
+
+    request.groupId   = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
+    request.groupName = chip::JniUtfString(env, static_cast<jstring>(groupName)).charSpan();
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<GroupsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, GroupsCluster, getGroupMembership)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupList)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    GroupsCluster * cppCluster;
+
+    chip::app::Clusters::Groups::Commands::GetGroupMembership::Type request;
+
+    request.groupList = chip::app::DataModel::List<const uint16_t>();
+
+    std::unique_ptr<CHIPGroupsClusterGetGroupMembershipResponseCallback,
+                    void (*)(CHIPGroupsClusterGetGroupMembershipResponseCallback *)>
+        onSuccess(Platform::New<CHIPGroupsClusterGetGroupMembershipResponseCallback>(callback),
+                  Platform::Delete<CHIPGroupsClusterGetGroupMembershipResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<GroupsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPGroupsClusterGetGroupMembershipResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, GroupsCluster, removeAllGroups)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    GroupsCluster * cppCluster;
+
+    chip::app::Clusters::Groups::Commands::RemoveAllGroups::Type request;
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<GroupsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, GroupsCluster, removeGroup)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    GroupsCluster * cppCluster;
+
+    chip::app::Clusters::Groups::Commands::RemoveGroup::Type request;
+
+    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
+
+    std::unique_ptr<CHIPGroupsClusterRemoveGroupResponseCallback, void (*)(CHIPGroupsClusterRemoveGroupResponseCallback *)>
+        onSuccess(Platform::New<CHIPGroupsClusterRemoveGroupResponseCallback>(callback),
+                  Platform::Delete<CHIPGroupsClusterRemoveGroupResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<GroupsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPGroupsClusterRemoveGroupResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, GroupsCluster, viewGroup)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    GroupsCluster * cppCluster;
+
+    chip::app::Clusters::Groups::Commands::ViewGroup::Type request;
+
+    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
+
+    std::unique_ptr<CHIPGroupsClusterViewGroupResponseCallback, void (*)(CHIPGroupsClusterViewGroupResponseCallback *)> onSuccess(
+        Platform::New<CHIPGroupsClusterViewGroupResponseCallback>(callback),
+        Platform::Delete<CHIPGroupsClusterViewGroupResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<GroupsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPGroupsClusterViewGroupResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, GroupsCluster, subscribeNameSupportAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    GroupsCluster * cppCluster = reinterpret_cast<GroupsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNameSupport(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, GroupsCluster, reportNameSupportAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    GroupsCluster * cppCluster = reinterpret_cast<GroupsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNameSupport(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, GroupsCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    GroupsCluster * cppCluster = reinterpret_cast<GroupsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, GroupsCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    GroupsCluster * cppCluster = reinterpret_cast<GroupsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, IdentifyCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    IdentifyCluster * cppCluster = new IdentifyCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, IdentifyCluster, identify)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject identifyTime)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    IdentifyCluster * cppCluster;
+
+    chip::app::Clusters::Identify::Commands::Identify::Type request;
+
+    request.identifyTime =
+        static_cast<decltype(request.identifyTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(identifyTime));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<IdentifyCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, IdentifyCluster, identifyQuery)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    IdentifyCluster * cppCluster;
+
+    chip::app::Clusters::Identify::Commands::IdentifyQuery::Type request;
+
+    std::unique_ptr<CHIPIdentifyClusterIdentifyQueryResponseCallback, void (*)(CHIPIdentifyClusterIdentifyQueryResponseCallback *)>
+        onSuccess(Platform::New<CHIPIdentifyClusterIdentifyQueryResponseCallback>(callback),
+                  Platform::Delete<CHIPIdentifyClusterIdentifyQueryResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<IdentifyCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPIdentifyClusterIdentifyQueryResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, IdentifyCluster, triggerEffect)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject effectIdentifier, jobject effectVariant)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    IdentifyCluster * cppCluster;
+
+    chip::app::Clusters::Identify::Commands::TriggerEffect::Type request;
+
+    request.effectIdentifier =
+        static_cast<decltype(request.effectIdentifier)>(chip::JniReferences::GetInstance().IntegerToPrimitive(effectIdentifier));
+    request.effectVariant =
+        static_cast<decltype(request.effectVariant)>(chip::JniReferences::GetInstance().IntegerToPrimitive(effectVariant));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<IdentifyCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, IdentifyCluster, writeIdentifyTimeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err               = CHIP_NO_ERROR;
+    IdentifyCluster * cppCluster = reinterpret_cast<IdentifyCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeIdentifyTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, IdentifyCluster, subscribeIdentifyTimeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err               = CHIP_NO_ERROR;
+    IdentifyCluster * cppCluster = reinterpret_cast<IdentifyCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeIdentifyTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, IdentifyCluster, reportIdentifyTimeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err               = CHIP_NO_ERROR;
+    IdentifyCluster * cppCluster = reinterpret_cast<IdentifyCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeIdentifyTime(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, IdentifyCluster, subscribeIdentifyTypeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err               = CHIP_NO_ERROR;
+    IdentifyCluster * cppCluster = reinterpret_cast<IdentifyCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeIdentifyType(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, IdentifyCluster, reportIdentifyTypeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err               = CHIP_NO_ERROR;
+    IdentifyCluster * cppCluster = reinterpret_cast<IdentifyCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeIdentifyType(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, IdentifyCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err               = CHIP_NO_ERROR;
+    IdentifyCluster * cppCluster = reinterpret_cast<IdentifyCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, IdentifyCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err               = CHIP_NO_ERROR;
+    IdentifyCluster * cppCluster = reinterpret_cast<IdentifyCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, IlluminanceMeasurementCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    IlluminanceMeasurementCluster * cppCluster = new IlluminanceMeasurementCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, IlluminanceMeasurementCluster, subscribeMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    IlluminanceMeasurementCluster * cppCluster = reinterpret_cast<IlluminanceMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMeasuredValue(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, IlluminanceMeasurementCluster, reportMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    IlluminanceMeasurementCluster * cppCluster = reinterpret_cast<IlluminanceMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMeasuredValue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, IlluminanceMeasurementCluster, subscribeMinMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    IlluminanceMeasurementCluster * cppCluster = reinterpret_cast<IlluminanceMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMinMeasuredValue(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, IlluminanceMeasurementCluster, reportMinMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    IlluminanceMeasurementCluster * cppCluster = reinterpret_cast<IlluminanceMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMinMeasuredValue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, IlluminanceMeasurementCluster, subscribeMaxMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    IlluminanceMeasurementCluster * cppCluster = reinterpret_cast<IlluminanceMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMaxMeasuredValue(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, IlluminanceMeasurementCluster, reportMaxMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    IlluminanceMeasurementCluster * cppCluster = reinterpret_cast<IlluminanceMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMaxMeasuredValue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, IlluminanceMeasurementCluster, subscribeToleranceAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    IlluminanceMeasurementCluster * cppCluster = reinterpret_cast<IlluminanceMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeTolerance(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, IlluminanceMeasurementCluster, reportToleranceAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    IlluminanceMeasurementCluster * cppCluster = reinterpret_cast<IlluminanceMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeTolerance(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, IlluminanceMeasurementCluster, subscribeLightSensorTypeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    IlluminanceMeasurementCluster * cppCluster = reinterpret_cast<IlluminanceMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeLightSensorType(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, IlluminanceMeasurementCluster, reportLightSensorTypeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    IlluminanceMeasurementCluster * cppCluster = reinterpret_cast<IlluminanceMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeLightSensorType(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, IlluminanceMeasurementCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    IlluminanceMeasurementCluster * cppCluster = reinterpret_cast<IlluminanceMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, IlluminanceMeasurementCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    IlluminanceMeasurementCluster * cppCluster = reinterpret_cast<IlluminanceMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, KeypadInputCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    KeypadInputCluster * cppCluster = new KeypadInputCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, KeypadInputCluster, sendKey)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject keyCode)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    KeypadInputCluster * cppCluster;
+
+    chip::app::Clusters::KeypadInput::Commands::SendKey::Type request;
+
+    request.keyCode = static_cast<decltype(request.keyCode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(keyCode));
+
+    std::unique_ptr<CHIPKeypadInputClusterSendKeyResponseCallback, void (*)(CHIPKeypadInputClusterSendKeyResponseCallback *)>
+        onSuccess(Platform::New<CHIPKeypadInputClusterSendKeyResponseCallback>(callback),
+                  Platform::Delete<CHIPKeypadInputClusterSendKeyResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<KeypadInputCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPKeypadInputClusterSendKeyResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, KeypadInputCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    KeypadInputCluster * cppCluster = reinterpret_cast<KeypadInputCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, KeypadInputCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    KeypadInputCluster * cppCluster = reinterpret_cast<KeypadInputCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, LevelControlCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    LevelControlCluster * cppCluster = new LevelControlCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, LevelControlCluster, move)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject moveMode, jobject rate, jobject optionMask,
+ jobject optionOverride)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster;
+
+    chip::app::Clusters::LevelControl::Commands::Move::Type request;
+
+    request.moveMode = static_cast<decltype(request.moveMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(moveMode));
+    request.rate     = static_cast<decltype(request.rate)>(chip::JniReferences::GetInstance().IntegerToPrimitive(rate));
+    request.optionMask =
+        static_cast<decltype(request.optionMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionMask));
+    request.optionOverride =
+        static_cast<decltype(request.optionOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionOverride));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, LevelControlCluster, moveToLevel)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject level, jobject transitionTime, jobject optionMask,
+ jobject optionOverride)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster;
+
+    chip::app::Clusters::LevelControl::Commands::MoveToLevel::Type request;
+
+    request.level = static_cast<decltype(request.level)>(chip::JniReferences::GetInstance().IntegerToPrimitive(level));
+    request.transitionTime =
+        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+    request.optionMask =
+        static_cast<decltype(request.optionMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionMask));
+    request.optionOverride =
+        static_cast<decltype(request.optionOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionOverride));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, LevelControlCluster, moveToLevelWithOnOff)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject level, jobject transitionTime)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster;
+
+    chip::app::Clusters::LevelControl::Commands::MoveToLevelWithOnOff::Type request;
+
+    request.level = static_cast<decltype(request.level)>(chip::JniReferences::GetInstance().IntegerToPrimitive(level));
+    request.transitionTime =
+        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, LevelControlCluster, moveWithOnOff)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject moveMode, jobject rate)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster;
+
+    chip::app::Clusters::LevelControl::Commands::MoveWithOnOff::Type request;
+
+    request.moveMode = static_cast<decltype(request.moveMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(moveMode));
+    request.rate     = static_cast<decltype(request.rate)>(chip::JniReferences::GetInstance().IntegerToPrimitive(rate));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, LevelControlCluster, step)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject stepMode, jobject stepSize, jobject transitionTime,
+ jobject optionMask, jobject optionOverride)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster;
+
+    chip::app::Clusters::LevelControl::Commands::Step::Type request;
+
+    request.stepMode = static_cast<decltype(request.stepMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepMode));
+    request.stepSize = static_cast<decltype(request.stepSize)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepSize));
+    request.transitionTime =
+        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+    request.optionMask =
+        static_cast<decltype(request.optionMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionMask));
+    request.optionOverride =
+        static_cast<decltype(request.optionOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionOverride));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, LevelControlCluster, stepWithOnOff)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject stepMode, jobject stepSize, jobject transitionTime)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster;
+
+    chip::app::Clusters::LevelControl::Commands::StepWithOnOff::Type request;
+
+    request.stepMode = static_cast<decltype(request.stepMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepMode));
+    request.stepSize = static_cast<decltype(request.stepSize)>(chip::JniReferences::GetInstance().IntegerToPrimitive(stepSize));
+    request.transitionTime =
+        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, LevelControlCluster, stop)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject optionMask, jobject optionOverride)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster;
+
+    chip::app::Clusters::LevelControl::Commands::Stop::Type request;
+
+    request.optionMask =
+        static_cast<decltype(request.optionMask)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionMask));
+    request.optionOverride =
+        static_cast<decltype(request.optionOverride)>(chip::JniReferences::GetInstance().IntegerToPrimitive(optionOverride));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, LevelControlCluster, stopWithOnOff)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster;
+
+    chip::app::Clusters::LevelControl::Commands::StopWithOnOff::Type request;
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, LevelControlCluster, subscribeCurrentLevelAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeCurrentLevel(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, reportCurrentLevelAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeCurrentLevel(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, LevelControlCluster, subscribeRemainingTimeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeRemainingTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, reportRemainingTimeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeRemainingTime(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, LevelControlCluster, subscribeMinLevelAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMinLevel(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                 static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, reportMinLevelAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMinLevel(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, LevelControlCluster, subscribeMaxLevelAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMaxLevel(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                 static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, reportMaxLevelAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMaxLevel(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, LevelControlCluster, subscribeCurrentFrequencyAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeCurrentFrequency(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, reportCurrentFrequencyAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeCurrentFrequency(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, LevelControlCluster, subscribeMinFrequencyAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMinFrequency(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, reportMinFrequencyAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMinFrequency(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, LevelControlCluster, subscribeMaxFrequencyAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMaxFrequency(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, reportMaxFrequencyAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMaxFrequency(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, writeOptionsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeOptions(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, LevelControlCluster, subscribeOptionsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeOptions(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, reportOptionsAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeOptions(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, writeOnOffTransitionTimeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeOnOffTransitionTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, LevelControlCluster, subscribeOnOffTransitionTimeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeOnOffTransitionTime(onSuccess->Cancel(), onFailure->Cancel(),
+                                                            static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, reportOnOffTransitionTimeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeOnOffTransitionTime(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, writeOnLevelAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeOnLevel(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, LevelControlCluster, subscribeOnLevelAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeOnLevel(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, reportOnLevelAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeOnLevel(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, writeOnTransitionTimeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeOnTransitionTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, LevelControlCluster, subscribeOnTransitionTimeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeOnTransitionTime(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, reportOnTransitionTimeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeOnTransitionTime(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, writeOffTransitionTimeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeOffTransitionTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, LevelControlCluster, subscribeOffTransitionTimeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeOffTransitionTime(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, reportOffTransitionTimeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeOffTransitionTime(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, writeDefaultMoveRateAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeDefaultMoveRate(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, LevelControlCluster, subscribeDefaultMoveRateAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeDefaultMoveRate(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, reportDefaultMoveRateAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeDefaultMoveRate(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, writeStartUpCurrentLevelAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeStartUpCurrentLevel(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, LevelControlCluster, subscribeStartUpCurrentLevelAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeStartUpCurrentLevel(onSuccess->Cancel(), onFailure->Cancel(),
+                                                            static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, reportStartUpCurrentLevelAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeStartUpCurrentLevel(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, LevelControlCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, LevelControlCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                   = CHIP_NO_ERROR;
+    LevelControlCluster * cppCluster = reinterpret_cast<LevelControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, LowPowerCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    LowPowerCluster * cppCluster = new LowPowerCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, LowPowerCluster, sleep)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    LowPowerCluster * cppCluster;
+
+    chip::app::Clusters::LowPower::Commands::Sleep::Type request;
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<LowPowerCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, LowPowerCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err               = CHIP_NO_ERROR;
+    LowPowerCluster * cppCluster = reinterpret_cast<LowPowerCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, LowPowerCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err               = CHIP_NO_ERROR;
+    LowPowerCluster * cppCluster = reinterpret_cast<LowPowerCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, MediaInputCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    MediaInputCluster * cppCluster = new MediaInputCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, MediaInputCluster, hideInputStatus)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    MediaInputCluster * cppCluster;
+
+    chip::app::Clusters::MediaInput::Commands::HideInputStatus::Type request;
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<MediaInputCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, MediaInputCluster, renameInput)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject index, jstring name)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    MediaInputCluster * cppCluster;
+
+    chip::app::Clusters::MediaInput::Commands::RenameInput::Type request;
+
+    request.index = static_cast<decltype(request.index)>(chip::JniReferences::GetInstance().IntegerToPrimitive(index));
+    request.name  = chip::JniUtfString(env, static_cast<jstring>(name)).charSpan();
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<MediaInputCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, MediaInputCluster, selectInput)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject index)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    MediaInputCluster * cppCluster;
+
+    chip::app::Clusters::MediaInput::Commands::SelectInput::Type request;
+
+    request.index = static_cast<decltype(request.index)>(chip::JniReferences::GetInstance().IntegerToPrimitive(index));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<MediaInputCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, MediaInputCluster, showInputStatus)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    MediaInputCluster * cppCluster;
+
+    chip::app::Clusters::MediaInput::Commands::ShowInputStatus::Type request;
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<MediaInputCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, MediaInputCluster, subscribeCurrentMediaInputAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    MediaInputCluster * cppCluster = reinterpret_cast<MediaInputCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeCurrentMediaInput(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, MediaInputCluster, reportCurrentMediaInputAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    MediaInputCluster * cppCluster = reinterpret_cast<MediaInputCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeCurrentMediaInput(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, MediaInputCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    MediaInputCluster * cppCluster = reinterpret_cast<MediaInputCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, MediaInputCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    MediaInputCluster * cppCluster = reinterpret_cast<MediaInputCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, MediaPlaybackCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    MediaPlaybackCluster * cppCluster = new MediaPlaybackCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, MediaPlaybackCluster, mediaFastForward)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster;
+
+    chip::app::Clusters::MediaPlayback::Commands::MediaFastForward::Type request;
+
+    std::unique_ptr<CHIPMediaPlaybackClusterMediaFastForwardResponseCallback,
+                    void (*)(CHIPMediaPlaybackClusterMediaFastForwardResponseCallback *)>
+        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaFastForwardResponseCallback>(callback),
+                  Platform::Delete<CHIPMediaPlaybackClusterMediaFastForwardResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaFastForwardResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, MediaPlaybackCluster, mediaNext)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster;
+
+    chip::app::Clusters::MediaPlayback::Commands::MediaNext::Type request;
+
+    std::unique_ptr<CHIPMediaPlaybackClusterMediaNextResponseCallback,
+                    void (*)(CHIPMediaPlaybackClusterMediaNextResponseCallback *)>
+        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaNextResponseCallback>(callback),
+                  Platform::Delete<CHIPMediaPlaybackClusterMediaNextResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaNextResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, MediaPlaybackCluster, mediaPause)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster;
+
+    chip::app::Clusters::MediaPlayback::Commands::MediaPause::Type request;
+
+    std::unique_ptr<CHIPMediaPlaybackClusterMediaPauseResponseCallback,
+                    void (*)(CHIPMediaPlaybackClusterMediaPauseResponseCallback *)>
+        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaPauseResponseCallback>(callback),
+                  Platform::Delete<CHIPMediaPlaybackClusterMediaPauseResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaPauseResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, MediaPlaybackCluster, mediaPlay)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster;
+
+    chip::app::Clusters::MediaPlayback::Commands::MediaPlay::Type request;
+
+    std::unique_ptr<CHIPMediaPlaybackClusterMediaPlayResponseCallback,
+                    void (*)(CHIPMediaPlaybackClusterMediaPlayResponseCallback *)>
+        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaPlayResponseCallback>(callback),
+                  Platform::Delete<CHIPMediaPlaybackClusterMediaPlayResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaPlayResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, MediaPlaybackCluster, mediaPrevious)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster;
+
+    chip::app::Clusters::MediaPlayback::Commands::MediaPrevious::Type request;
+
+    std::unique_ptr<CHIPMediaPlaybackClusterMediaPreviousResponseCallback,
+                    void (*)(CHIPMediaPlaybackClusterMediaPreviousResponseCallback *)>
+        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaPreviousResponseCallback>(callback),
+                  Platform::Delete<CHIPMediaPlaybackClusterMediaPreviousResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaPreviousResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, MediaPlaybackCluster, mediaRewind)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster;
+
+    chip::app::Clusters::MediaPlayback::Commands::MediaRewind::Type request;
+
+    std::unique_ptr<CHIPMediaPlaybackClusterMediaRewindResponseCallback,
+                    void (*)(CHIPMediaPlaybackClusterMediaRewindResponseCallback *)>
+        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaRewindResponseCallback>(callback),
+                  Platform::Delete<CHIPMediaPlaybackClusterMediaRewindResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaRewindResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, MediaPlaybackCluster, mediaSeek)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject position)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster;
+
+    chip::app::Clusters::MediaPlayback::Commands::MediaSeek::Type request;
+
+    request.position = static_cast<decltype(request.position)>(chip::JniReferences::GetInstance().LongToPrimitive(position));
+
+    std::unique_ptr<CHIPMediaPlaybackClusterMediaSeekResponseCallback,
+                    void (*)(CHIPMediaPlaybackClusterMediaSeekResponseCallback *)>
+        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaSeekResponseCallback>(callback),
+                  Platform::Delete<CHIPMediaPlaybackClusterMediaSeekResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaSeekResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, MediaPlaybackCluster, mediaSkipBackward)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject deltaPositionMilliseconds)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster;
+
+    chip::app::Clusters::MediaPlayback::Commands::MediaSkipBackward::Type request;
+
+    request.deltaPositionMilliseconds = static_cast<decltype(request.deltaPositionMilliseconds)>(
+        chip::JniReferences::GetInstance().LongToPrimitive(deltaPositionMilliseconds));
+
+    std::unique_ptr<CHIPMediaPlaybackClusterMediaSkipBackwardResponseCallback,
+                    void (*)(CHIPMediaPlaybackClusterMediaSkipBackwardResponseCallback *)>
+        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaSkipBackwardResponseCallback>(callback),
+                  Platform::Delete<CHIPMediaPlaybackClusterMediaSkipBackwardResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPMediaPlaybackClusterMediaSkipBackwardResponseCallbackType>::FromCancelable(
+        onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, MediaPlaybackCluster, mediaSkipForward)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject deltaPositionMilliseconds)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster;
+
+    chip::app::Clusters::MediaPlayback::Commands::MediaSkipForward::Type request;
+
+    request.deltaPositionMilliseconds = static_cast<decltype(request.deltaPositionMilliseconds)>(
+        chip::JniReferences::GetInstance().LongToPrimitive(deltaPositionMilliseconds));
+
+    std::unique_ptr<CHIPMediaPlaybackClusterMediaSkipForwardResponseCallback,
+                    void (*)(CHIPMediaPlaybackClusterMediaSkipForwardResponseCallback *)>
+        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaSkipForwardResponseCallback>(callback),
+                  Platform::Delete<CHIPMediaPlaybackClusterMediaSkipForwardResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaSkipForwardResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, MediaPlaybackCluster, mediaStartOver)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster;
+
+    chip::app::Clusters::MediaPlayback::Commands::MediaStartOver::Type request;
+
+    std::unique_ptr<CHIPMediaPlaybackClusterMediaStartOverResponseCallback,
+                    void (*)(CHIPMediaPlaybackClusterMediaStartOverResponseCallback *)>
+        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaStartOverResponseCallback>(callback),
+                  Platform::Delete<CHIPMediaPlaybackClusterMediaStartOverResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaStartOverResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, MediaPlaybackCluster, mediaStop)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster;
+
+    chip::app::Clusters::MediaPlayback::Commands::MediaStop::Type request;
+
+    std::unique_ptr<CHIPMediaPlaybackClusterMediaStopResponseCallback,
+                    void (*)(CHIPMediaPlaybackClusterMediaStopResponseCallback *)>
+        onSuccess(Platform::New<CHIPMediaPlaybackClusterMediaStopResponseCallback>(callback),
+                  Platform::Delete<CHIPMediaPlaybackClusterMediaStopResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPMediaPlaybackClusterMediaStopResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, MediaPlaybackCluster, subscribePlaybackStateAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                    = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributePlaybackState(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, MediaPlaybackCluster, reportPlaybackStateAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                    = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributePlaybackState(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, MediaPlaybackCluster, subscribeStartTimeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                    = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeStartTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, MediaPlaybackCluster, reportStartTimeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                    = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeStartTime(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, MediaPlaybackCluster, subscribeDurationAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                    = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeDuration(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                 static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, MediaPlaybackCluster, reportDurationAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                    = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeDuration(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, MediaPlaybackCluster, subscribePositionUpdatedAtAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                    = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributePositionUpdatedAt(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, MediaPlaybackCluster, reportPositionUpdatedAtAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                    = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributePositionUpdatedAt(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, MediaPlaybackCluster, subscribePositionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                    = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributePosition(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                 static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, MediaPlaybackCluster, reportPositionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                    = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributePosition(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, MediaPlaybackCluster, subscribePlaybackSpeedAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                    = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributePlaybackSpeed(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, MediaPlaybackCluster, reportPlaybackSpeedAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                    = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributePlaybackSpeed(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, MediaPlaybackCluster, subscribeSeekRangeEndAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                    = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeSeekRangeEnd(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, MediaPlaybackCluster, reportSeekRangeEndAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                    = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeSeekRangeEnd(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, MediaPlaybackCluster, subscribeSeekRangeStartAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                    = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeSeekRangeStart(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, MediaPlaybackCluster, reportSeekRangeStartAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                    = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeSeekRangeStart(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, MediaPlaybackCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                    = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, MediaPlaybackCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                    = CHIP_NO_ERROR;
+    MediaPlaybackCluster * cppCluster = reinterpret_cast<MediaPlaybackCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, ModeSelectCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    ModeSelectCluster * cppCluster = new ModeSelectCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, ModeSelectCluster, changeToMode)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject newMode)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ModeSelectCluster * cppCluster;
+
+    chip::app::Clusters::ModeSelect::Commands::ChangeToMode::Type request;
+
+    request.newMode = static_cast<decltype(request.newMode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(newMode));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<ModeSelectCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ModeSelectCluster, subscribeCurrentModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ModeSelectCluster * cppCluster = reinterpret_cast<ModeSelectCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeCurrentMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ModeSelectCluster, reportCurrentModeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ModeSelectCluster * cppCluster = reinterpret_cast<ModeSelectCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeCurrentMode(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ModeSelectCluster, writeOnModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ModeSelectCluster * cppCluster = reinterpret_cast<ModeSelectCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeOnMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ModeSelectCluster, subscribeOnModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ModeSelectCluster * cppCluster = reinterpret_cast<ModeSelectCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeOnMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                               static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ModeSelectCluster, reportOnModeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ModeSelectCluster * cppCluster = reinterpret_cast<ModeSelectCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeOnMode(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ModeSelectCluster, subscribeStartUpModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ModeSelectCluster * cppCluster = reinterpret_cast<ModeSelectCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeStartUpMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ModeSelectCluster, reportStartUpModeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ModeSelectCluster * cppCluster = reinterpret_cast<ModeSelectCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeStartUpMode(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ModeSelectCluster, subscribeDescriptionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ModeSelectCluster * cppCluster = reinterpret_cast<ModeSelectCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeDescription(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ModeSelectCluster, reportDescriptionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ModeSelectCluster * cppCluster = reinterpret_cast<ModeSelectCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeDescription(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ModeSelectCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ModeSelectCluster * cppCluster = reinterpret_cast<ModeSelectCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ModeSelectCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ModeSelectCluster * cppCluster = reinterpret_cast<ModeSelectCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, NetworkCommissioningCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    NetworkCommissioningCluster * cppCluster = new NetworkCommissioningCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, NetworkCommissioningCluster, addThreadNetwork)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray operationalDataset, jobject breadcrumb,
+ jobject timeoutMs)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    NetworkCommissioningCluster * cppCluster;
+
+    chip::app::Clusters::NetworkCommissioning::Commands::AddThreadNetwork::Type request;
+
+    request.operationalDataset = chip::JniByteArray(env, static_cast<jbyteArray>(operationalDataset)).byteSpan();
+    request.breadcrumb = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
+    request.timeoutMs  = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
+
+    std::unique_ptr<CHIPNetworkCommissioningClusterAddThreadNetworkResponseCallback,
+                    void (*)(CHIPNetworkCommissioningClusterAddThreadNetworkResponseCallback *)>
+        onSuccess(Platform::New<CHIPNetworkCommissioningClusterAddThreadNetworkResponseCallback>(callback),
+                  Platform::Delete<CHIPNetworkCommissioningClusterAddThreadNetworkResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPNetworkCommissioningClusterAddThreadNetworkResponseCallbackType>::FromCancelable(
+        onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, NetworkCommissioningCluster, addWiFiNetwork)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray ssid, jbyteArray credentials, jobject breadcrumb,
+ jobject timeoutMs)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    NetworkCommissioningCluster * cppCluster;
+
+    chip::app::Clusters::NetworkCommissioning::Commands::AddWiFiNetwork::Type request;
+
+    request.ssid        = chip::JniByteArray(env, static_cast<jbyteArray>(ssid)).byteSpan();
+    request.credentials = chip::JniByteArray(env, static_cast<jbyteArray>(credentials)).byteSpan();
+    request.breadcrumb  = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
+    request.timeoutMs   = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
+
+    std::unique_ptr<CHIPNetworkCommissioningClusterAddWiFiNetworkResponseCallback,
+                    void (*)(CHIPNetworkCommissioningClusterAddWiFiNetworkResponseCallback *)>
+        onSuccess(Platform::New<CHIPNetworkCommissioningClusterAddWiFiNetworkResponseCallback>(callback),
+                  Platform::Delete<CHIPNetworkCommissioningClusterAddWiFiNetworkResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPNetworkCommissioningClusterAddWiFiNetworkResponseCallbackType>::FromCancelable(
+        onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, NetworkCommissioningCluster, disableNetwork)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray networkID, jobject breadcrumb, jobject timeoutMs)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    NetworkCommissioningCluster * cppCluster;
+
+    chip::app::Clusters::NetworkCommissioning::Commands::DisableNetwork::Type request;
+
+    request.networkID  = chip::JniByteArray(env, static_cast<jbyteArray>(networkID)).byteSpan();
+    request.breadcrumb = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
+    request.timeoutMs  = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
+
+    std::unique_ptr<CHIPNetworkCommissioningClusterDisableNetworkResponseCallback,
+                    void (*)(CHIPNetworkCommissioningClusterDisableNetworkResponseCallback *)>
+        onSuccess(Platform::New<CHIPNetworkCommissioningClusterDisableNetworkResponseCallback>(callback),
+                  Platform::Delete<CHIPNetworkCommissioningClusterDisableNetworkResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPNetworkCommissioningClusterDisableNetworkResponseCallbackType>::FromCancelable(
+        onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, NetworkCommissioningCluster, enableNetwork)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray networkID, jobject breadcrumb, jobject timeoutMs)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    NetworkCommissioningCluster * cppCluster;
+
+    chip::app::Clusters::NetworkCommissioning::Commands::EnableNetwork::Type request;
+
+    request.networkID  = chip::JniByteArray(env, static_cast<jbyteArray>(networkID)).byteSpan();
+    request.breadcrumb = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
+    request.timeoutMs  = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
+
+    std::unique_ptr<CHIPNetworkCommissioningClusterEnableNetworkResponseCallback,
+                    void (*)(CHIPNetworkCommissioningClusterEnableNetworkResponseCallback *)>
+        onSuccess(Platform::New<CHIPNetworkCommissioningClusterEnableNetworkResponseCallback>(callback),
+                  Platform::Delete<CHIPNetworkCommissioningClusterEnableNetworkResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPNetworkCommissioningClusterEnableNetworkResponseCallbackType>::FromCancelable(
+        onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, NetworkCommissioningCluster, removeNetwork)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray networkID, jobject breadcrumb, jobject timeoutMs)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    NetworkCommissioningCluster * cppCluster;
+
+    chip::app::Clusters::NetworkCommissioning::Commands::RemoveNetwork::Type request;
+
+    request.networkID  = chip::JniByteArray(env, static_cast<jbyteArray>(networkID)).byteSpan();
+    request.breadcrumb = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
+    request.timeoutMs  = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
+
+    std::unique_ptr<CHIPNetworkCommissioningClusterRemoveNetworkResponseCallback,
+                    void (*)(CHIPNetworkCommissioningClusterRemoveNetworkResponseCallback *)>
+        onSuccess(Platform::New<CHIPNetworkCommissioningClusterRemoveNetworkResponseCallback>(callback),
+                  Platform::Delete<CHIPNetworkCommissioningClusterRemoveNetworkResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPNetworkCommissioningClusterRemoveNetworkResponseCallbackType>::FromCancelable(
+        onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, NetworkCommissioningCluster, scanNetworks)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray ssid, jobject breadcrumb, jobject timeoutMs)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    NetworkCommissioningCluster * cppCluster;
+
+    chip::app::Clusters::NetworkCommissioning::Commands::ScanNetworks::Type request;
+
+    request.ssid       = chip::JniByteArray(env, static_cast<jbyteArray>(ssid)).byteSpan();
+    request.breadcrumb = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
+    request.timeoutMs  = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
+
+    std::unique_ptr<CHIPNetworkCommissioningClusterScanNetworksResponseCallback,
+                    void (*)(CHIPNetworkCommissioningClusterScanNetworksResponseCallback *)>
+        onSuccess(Platform::New<CHIPNetworkCommissioningClusterScanNetworksResponseCallback>(callback),
+                  Platform::Delete<CHIPNetworkCommissioningClusterScanNetworksResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPNetworkCommissioningClusterScanNetworksResponseCallbackType>::FromCancelable(
+        onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, NetworkCommissioningCluster, updateThreadNetwork)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray operationalDataset, jobject breadcrumb,
+ jobject timeoutMs)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    NetworkCommissioningCluster * cppCluster;
+
+    chip::app::Clusters::NetworkCommissioning::Commands::UpdateThreadNetwork::Type request;
+
+    request.operationalDataset = chip::JniByteArray(env, static_cast<jbyteArray>(operationalDataset)).byteSpan();
+    request.breadcrumb = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
+    request.timeoutMs  = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
+
+    std::unique_ptr<CHIPNetworkCommissioningClusterUpdateThreadNetworkResponseCallback,
+                    void (*)(CHIPNetworkCommissioningClusterUpdateThreadNetworkResponseCallback *)>
+        onSuccess(Platform::New<CHIPNetworkCommissioningClusterUpdateThreadNetworkResponseCallback>(callback),
+                  Platform::Delete<CHIPNetworkCommissioningClusterUpdateThreadNetworkResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPNetworkCommissioningClusterUpdateThreadNetworkResponseCallbackType>::FromCancelable(
+            onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, NetworkCommissioningCluster, updateWiFiNetwork)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray ssid, jbyteArray credentials, jobject breadcrumb,
+ jobject timeoutMs)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
     NetworkCommissioningCluster * cppCluster;
 
-    chip::app::Clusters::NetworkCommissioning::Commands::UpdateThreadNetwork::Type request;
+    chip::app::Clusters::NetworkCommissioning::Commands::UpdateWiFiNetwork::Type request;
+
+    request.ssid        = chip::JniByteArray(env, static_cast<jbyteArray>(ssid)).byteSpan();
+    request.credentials = chip::JniByteArray(env, static_cast<jbyteArray>(credentials)).byteSpan();
+    request.breadcrumb  = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
+    request.timeoutMs   = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
+
+    std::unique_ptr<CHIPNetworkCommissioningClusterUpdateWiFiNetworkResponseCallback,
+                    void (*)(CHIPNetworkCommissioningClusterUpdateWiFiNetworkResponseCallback *)>
+        onSuccess(Platform::New<CHIPNetworkCommissioningClusterUpdateWiFiNetworkResponseCallback>(callback),
+                  Platform::Delete<CHIPNetworkCommissioningClusterUpdateWiFiNetworkResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPNetworkCommissioningClusterUpdateWiFiNetworkResponseCallbackType>::FromCancelable(
+        onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, NetworkCommissioningCluster, subscribeFeatureMapAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                           = CHIP_NO_ERROR;
+    NetworkCommissioningCluster * cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeFeatureMap(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, NetworkCommissioningCluster, reportFeatureMapAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                           = CHIP_NO_ERROR;
+    NetworkCommissioningCluster * cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeFeatureMap(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, NetworkCommissioningCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                           = CHIP_NO_ERROR;
+    NetworkCommissioningCluster * cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, NetworkCommissioningCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                           = CHIP_NO_ERROR;
+    NetworkCommissioningCluster * cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, OtaSoftwareUpdateProviderCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    OtaSoftwareUpdateProviderCluster * cppCluster = new OtaSoftwareUpdateProviderCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, OtaSoftwareUpdateProviderCluster, applyUpdateRequest)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray updateToken, jobject newVersion)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    OtaSoftwareUpdateProviderCluster * cppCluster;
+
+    chip::app::Clusters::OtaSoftwareUpdateProvider::Commands::ApplyUpdateRequest::Type request;
+
+    request.updateToken = chip::JniByteArray(env, static_cast<jbyteArray>(updateToken)).byteSpan();
+    request.newVersion  = static_cast<decltype(request.newVersion)>(chip::JniReferences::GetInstance().LongToPrimitive(newVersion));
+
+    std::unique_ptr<CHIPOtaSoftwareUpdateProviderClusterApplyUpdateResponseCallback,
+                    void (*)(CHIPOtaSoftwareUpdateProviderClusterApplyUpdateResponseCallback *)>
+        onSuccess(Platform::New<CHIPOtaSoftwareUpdateProviderClusterApplyUpdateResponseCallback>(callback),
+                  Platform::Delete<CHIPOtaSoftwareUpdateProviderClusterApplyUpdateResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<OtaSoftwareUpdateProviderCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPOtaSoftwareUpdateProviderClusterApplyUpdateResponseCallbackType>::FromCancelable(
+        onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OtaSoftwareUpdateProviderCluster, notifyUpdateApplied)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray updateToken, jobject softwareVersion)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    OtaSoftwareUpdateProviderCluster * cppCluster;
+
+    chip::app::Clusters::OtaSoftwareUpdateProvider::Commands::NotifyUpdateApplied::Type request;
+
+    request.updateToken = chip::JniByteArray(env, static_cast<jbyteArray>(updateToken)).byteSpan();
+    request.softwareVersion =
+        static_cast<decltype(request.softwareVersion)>(chip::JniReferences::GetInstance().LongToPrimitive(softwareVersion));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<OtaSoftwareUpdateProviderCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OtaSoftwareUpdateProviderCluster, queryImage)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject vendorId, jobject productId, jobject softwareVersion,
+ jobject protocolsSupported, jobject hardwareVersion, jobject location, jobject requestorCanConsent, jobject metadataForProvider)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    OtaSoftwareUpdateProviderCluster * cppCluster;
+
+    chip::app::Clusters::OtaSoftwareUpdateProvider::Commands::QueryImage::Type request;
+
+    request.vendorId  = static_cast<decltype(request.vendorId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(vendorId));
+    request.productId = static_cast<decltype(request.productId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(productId));
+    request.softwareVersion =
+        static_cast<decltype(request.softwareVersion)>(chip::JniReferences::GetInstance().LongToPrimitive(softwareVersion));
+    request.protocolsSupported =
+        chip::app::DataModel::List<const chip::app::Clusters::OtaSoftwareUpdateProvider::OTADownloadProtocol>();
+    chip::JniReferences::GetInstance().GetOptionalValue(hardwareVersion, hardwareVersion);
+    request.hardwareVersion = chip::Optional<uint16_t>(
+        static_cast<decltype(request.hardwareVersion)>(chip::JniReferences::GetInstance().IntegerToPrimitive(hardwareVersion)));
+    chip::JniReferences::GetInstance().GetOptionalValue(location, location);
+    request.location = chip::Optional<chip::CharSpan>(chip::JniUtfString(env, static_cast<jstring>(location)).charSpan());
+    chip::JniReferences::GetInstance().GetOptionalValue(requestorCanConsent, requestorCanConsent);
+    request.requestorCanConsent = chip::Optional<bool>(static_cast<decltype(request.requestorCanConsent)>(
+        chip::JniReferences::GetInstance().BooleanToPrimitive(requestorCanConsent)));
+    chip::JniReferences::GetInstance().GetOptionalValue(metadataForProvider, metadataForProvider);
+    request.metadataForProvider =
+        chip::Optional<chip::ByteSpan>(chip::JniByteArray(env, static_cast<jbyteArray>(metadataForProvider)).byteSpan());
+
+    std::unique_ptr<CHIPOtaSoftwareUpdateProviderClusterQueryImageResponseCallback,
+                    void (*)(CHIPOtaSoftwareUpdateProviderClusterQueryImageResponseCallback *)>
+        onSuccess(Platform::New<CHIPOtaSoftwareUpdateProviderClusterQueryImageResponseCallback>(callback),
+                  Platform::Delete<CHIPOtaSoftwareUpdateProviderClusterQueryImageResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<OtaSoftwareUpdateProviderCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPOtaSoftwareUpdateProviderClusterQueryImageResponseCallbackType>::FromCancelable(
+        onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OtaSoftwareUpdateProviderCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                = CHIP_NO_ERROR;
+    OtaSoftwareUpdateProviderCluster * cppCluster = reinterpret_cast<OtaSoftwareUpdateProviderCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OtaSoftwareUpdateProviderCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                = CHIP_NO_ERROR;
+    OtaSoftwareUpdateProviderCluster * cppCluster = reinterpret_cast<OtaSoftwareUpdateProviderCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, OtaSoftwareUpdateRequestorCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    OtaSoftwareUpdateRequestorCluster * cppCluster = new OtaSoftwareUpdateRequestorCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, OtaSoftwareUpdateRequestorCluster, announceOtaProvider)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject providerLocation, jobject vendorId,
+ jobject announcementReason, jobject metadataForNode)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    OtaSoftwareUpdateRequestorCluster * cppCluster;
+
+    chip::app::Clusters::OtaSoftwareUpdateRequestor::Commands::AnnounceOtaProvider::Type request;
+
+    request.providerLocation =
+        static_cast<decltype(request.providerLocation)>(chip::JniReferences::GetInstance().LongToPrimitive(providerLocation));
+    request.vendorId = static_cast<decltype(request.vendorId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(vendorId));
+    request.announcementReason = static_cast<decltype(request.announcementReason)>(
+        chip::JniReferences::GetInstance().IntegerToPrimitive(announcementReason));
+    chip::JniReferences::GetInstance().GetOptionalValue(metadataForNode, metadataForNode);
+    request.metadataForNode =
+        chip::Optional<chip::ByteSpan>(chip::JniByteArray(env, static_cast<jbyteArray>(metadataForNode)).byteSpan());
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<OtaSoftwareUpdateRequestorCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OtaSoftwareUpdateRequestorCluster, writeDefaultOtaProviderAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    OtaSoftwareUpdateRequestorCluster * cppCluster = reinterpret_cast<OtaSoftwareUpdateRequestorCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    JniByteArray jniArr(env, value);
+    err = cppCluster->WriteAttributeDefaultOtaProvider(onSuccess->Cancel(), onFailure->Cancel(),
+                                                       chip::ByteSpan((const uint8_t *) jniArr.data(), jniArr.size()));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OtaSoftwareUpdateRequestorCluster, subscribeDefaultOtaProviderAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    OtaSoftwareUpdateRequestorCluster * cppCluster = reinterpret_cast<OtaSoftwareUpdateRequestorCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeDefaultOtaProvider(onSuccess->Cancel(), onFailure->Cancel(),
+                                                           static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OtaSoftwareUpdateRequestorCluster, reportDefaultOtaProviderAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPOctetStringAttributeCallback, void (*)(CHIPOctetStringAttributeCallback *)> onReport(
+        Platform::New<CHIPOctetStringAttributeCallback>(callback, true), Platform::Delete<CHIPOctetStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    OtaSoftwareUpdateRequestorCluster * cppCluster = reinterpret_cast<OtaSoftwareUpdateRequestorCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeDefaultOtaProvider(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, OtaSoftwareUpdateRequestorCluster, subscribeUpdatePossibleAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    OtaSoftwareUpdateRequestorCluster * cppCluster = reinterpret_cast<OtaSoftwareUpdateRequestorCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeUpdatePossible(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OtaSoftwareUpdateRequestorCluster, reportUpdatePossibleAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPBooleanAttributeCallback, void (*)(CHIPBooleanAttributeCallback *)> onReport(
+        Platform::New<CHIPBooleanAttributeCallback>(callback, true), Platform::Delete<CHIPBooleanAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    OtaSoftwareUpdateRequestorCluster * cppCluster = reinterpret_cast<OtaSoftwareUpdateRequestorCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeUpdatePossible(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, OtaSoftwareUpdateRequestorCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    OtaSoftwareUpdateRequestorCluster * cppCluster = reinterpret_cast<OtaSoftwareUpdateRequestorCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OtaSoftwareUpdateRequestorCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                 = CHIP_NO_ERROR;
+    OtaSoftwareUpdateRequestorCluster * cppCluster = reinterpret_cast<OtaSoftwareUpdateRequestorCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, OccupancySensingCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    OccupancySensingCluster * cppCluster = new OccupancySensingCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, OccupancySensingCluster, subscribeOccupancyAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    OccupancySensingCluster * cppCluster = reinterpret_cast<OccupancySensingCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeOccupancy(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OccupancySensingCluster, reportOccupancyAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    OccupancySensingCluster * cppCluster = reinterpret_cast<OccupancySensingCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeOccupancy(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, OccupancySensingCluster, subscribeOccupancySensorTypeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    OccupancySensingCluster * cppCluster = reinterpret_cast<OccupancySensingCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeOccupancySensorType(onSuccess->Cancel(), onFailure->Cancel(),
+                                                            static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OccupancySensingCluster, reportOccupancySensorTypeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    OccupancySensingCluster * cppCluster = reinterpret_cast<OccupancySensingCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeOccupancySensorType(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, OccupancySensingCluster, subscribeOccupancySensorTypeBitmapAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    OccupancySensingCluster * cppCluster = reinterpret_cast<OccupancySensingCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeOccupancySensorTypeBitmap(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OccupancySensingCluster, reportOccupancySensorTypeBitmapAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    OccupancySensingCluster * cppCluster = reinterpret_cast<OccupancySensingCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeOccupancySensorTypeBitmap(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, OccupancySensingCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    OccupancySensingCluster * cppCluster = reinterpret_cast<OccupancySensingCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OccupancySensingCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                       = CHIP_NO_ERROR;
+    OccupancySensingCluster * cppCluster = reinterpret_cast<OccupancySensingCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, OnOffCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    OnOffCluster * cppCluster = new OnOffCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, OnOffCluster, off)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster;
+
+    chip::app::Clusters::OnOff::Commands::Off::Type request;
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OnOffCluster, offWithEffect)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject effectId, jobject effectVariant)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster;
+
+    chip::app::Clusters::OnOff::Commands::OffWithEffect::Type request;
+
+    request.effectId = static_cast<decltype(request.effectId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(effectId));
+    request.effectVariant =
+        static_cast<decltype(request.effectVariant)>(chip::JniReferences::GetInstance().IntegerToPrimitive(effectVariant));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OnOffCluster, on)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster;
+
+    chip::app::Clusters::OnOff::Commands::On::Type request;
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OnOffCluster, onWithRecallGlobalScene)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster;
+
+    chip::app::Clusters::OnOff::Commands::OnWithRecallGlobalScene::Type request;
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OnOffCluster, onWithTimedOff)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject onOffControl, jobject onTime, jobject offWaitTime)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster;
+
+    chip::app::Clusters::OnOff::Commands::OnWithTimedOff::Type request;
+
+    request.onOffControl =
+        static_cast<decltype(request.onOffControl)>(chip::JniReferences::GetInstance().IntegerToPrimitive(onOffControl));
+    request.onTime = static_cast<decltype(request.onTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(onTime));
+    request.offWaitTime =
+        static_cast<decltype(request.offWaitTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(offWaitTime));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OnOffCluster, toggle)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster;
+
+    chip::app::Clusters::OnOff::Commands::Toggle::Type request;
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OnOffCluster, subscribeOnOffAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeOnOff(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                              static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OnOffCluster, reportOnOffAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPBooleanAttributeCallback, void (*)(CHIPBooleanAttributeCallback *)> onReport(
+        Platform::New<CHIPBooleanAttributeCallback>(callback, true), Platform::Delete<CHIPBooleanAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeOnOff(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, OnOffCluster, subscribeGlobalSceneControlAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeGlobalSceneControl(onSuccess->Cancel(), onFailure->Cancel(),
+                                                           static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OnOffCluster, reportGlobalSceneControlAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPBooleanAttributeCallback, void (*)(CHIPBooleanAttributeCallback *)> onReport(
+        Platform::New<CHIPBooleanAttributeCallback>(callback, true), Platform::Delete<CHIPBooleanAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeGlobalSceneControl(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, OnOffCluster, writeOnTimeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeOnTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OnOffCluster, subscribeOnTimeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeOnTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                               static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OnOffCluster, reportOnTimeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeOnTime(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, OnOffCluster, writeOffWaitTimeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeOffWaitTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OnOffCluster, subscribeOffWaitTimeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeOffWaitTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OnOffCluster, reportOffWaitTimeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeOffWaitTime(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, OnOffCluster, writeStartUpOnOffAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeStartUpOnOff(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OnOffCluster, subscribeStartUpOnOffAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeStartUpOnOff(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OnOffCluster, reportStartUpOnOffAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeStartUpOnOff(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, OnOffCluster, subscribeFeatureMapAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeFeatureMap(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OnOffCluster, reportFeatureMapAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeFeatureMap(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, OnOffCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OnOffCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err            = CHIP_NO_ERROR;
+    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, OnOffSwitchConfigurationCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    OnOffSwitchConfigurationCluster * cppCluster = new OnOffSwitchConfigurationCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, OnOffSwitchConfigurationCluster, subscribeSwitchTypeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    OnOffSwitchConfigurationCluster * cppCluster = reinterpret_cast<OnOffSwitchConfigurationCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeSwitchType(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OnOffSwitchConfigurationCluster, reportSwitchTypeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    OnOffSwitchConfigurationCluster * cppCluster = reinterpret_cast<OnOffSwitchConfigurationCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeSwitchType(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, OnOffSwitchConfigurationCluster, writeSwitchActionsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    OnOffSwitchConfigurationCluster * cppCluster = reinterpret_cast<OnOffSwitchConfigurationCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeSwitchActions(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OnOffSwitchConfigurationCluster, subscribeSwitchActionsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    OnOffSwitchConfigurationCluster * cppCluster = reinterpret_cast<OnOffSwitchConfigurationCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeSwitchActions(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OnOffSwitchConfigurationCluster, reportSwitchActionsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    OnOffSwitchConfigurationCluster * cppCluster = reinterpret_cast<OnOffSwitchConfigurationCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeSwitchActions(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, OnOffSwitchConfigurationCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    OnOffSwitchConfigurationCluster * cppCluster = reinterpret_cast<OnOffSwitchConfigurationCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OnOffSwitchConfigurationCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    OnOffSwitchConfigurationCluster * cppCluster = reinterpret_cast<OnOffSwitchConfigurationCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, OperationalCredentialsCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    OperationalCredentialsCluster * cppCluster = new OperationalCredentialsCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, OperationalCredentialsCluster, addNOC)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray NOCValue, jobject ICACValue, jbyteArray IPKValue,
+ jobject caseAdminNode, jobject adminVendorId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    OperationalCredentialsCluster * cppCluster;
+
+    chip::app::Clusters::OperationalCredentials::Commands::AddNOC::Type request;
+
+    request.NOCValue = chip::JniByteArray(env, static_cast<jbyteArray>(NOCValue)).byteSpan();
+    chip::JniReferences::GetInstance().GetOptionalValue(ICACValue, ICACValue);
+    request.ICACValue = chip::Optional<chip::ByteSpan>(chip::JniByteArray(env, static_cast<jbyteArray>(ICACValue)).byteSpan());
+    request.IPKValue  = chip::JniByteArray(env, static_cast<jbyteArray>(IPKValue)).byteSpan();
+    request.caseAdminNode =
+        static_cast<decltype(request.caseAdminNode)>(chip::JniReferences::GetInstance().LongToPrimitive(caseAdminNode));
+    request.adminVendorId =
+        static_cast<decltype(request.adminVendorId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(adminVendorId));
+
+    std::unique_ptr<CHIPOperationalCredentialsClusterNOCResponseCallback,
+                    void (*)(CHIPOperationalCredentialsClusterNOCResponseCallback *)>
+        onSuccess(Platform::New<CHIPOperationalCredentialsClusterNOCResponseCallback>(callback),
+                  Platform::Delete<CHIPOperationalCredentialsClusterNOCResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPOperationalCredentialsClusterNOCResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OperationalCredentialsCluster, addTrustedRootCertificate)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray rootCertificate)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    OperationalCredentialsCluster * cppCluster;
+
+    chip::app::Clusters::OperationalCredentials::Commands::AddTrustedRootCertificate::Type request;
+
+    request.rootCertificate = chip::JniByteArray(env, static_cast<jbyteArray>(rootCertificate)).byteSpan();
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OperationalCredentialsCluster, attestationRequest)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray attestationNonce)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    OperationalCredentialsCluster * cppCluster;
+
+    chip::app::Clusters::OperationalCredentials::Commands::AttestationRequest::Type request;
+
+    request.attestationNonce = chip::JniByteArray(env, static_cast<jbyteArray>(attestationNonce)).byteSpan();
+
+    std::unique_ptr<CHIPOperationalCredentialsClusterAttestationResponseCallback,
+                    void (*)(CHIPOperationalCredentialsClusterAttestationResponseCallback *)>
+        onSuccess(Platform::New<CHIPOperationalCredentialsClusterAttestationResponseCallback>(callback),
+                  Platform::Delete<CHIPOperationalCredentialsClusterAttestationResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPOperationalCredentialsClusterAttestationResponseCallbackType>::FromCancelable(
+        onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OperationalCredentialsCluster, certificateChainRequest)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject certificateType)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    OperationalCredentialsCluster * cppCluster;
+
+    chip::app::Clusters::OperationalCredentials::Commands::CertificateChainRequest::Type request;
+
+    request.certificateType =
+        static_cast<decltype(request.certificateType)>(chip::JniReferences::GetInstance().IntegerToPrimitive(certificateType));
+
+    std::unique_ptr<CHIPOperationalCredentialsClusterCertificateChainResponseCallback,
+                    void (*)(CHIPOperationalCredentialsClusterCertificateChainResponseCallback *)>
+        onSuccess(Platform::New<CHIPOperationalCredentialsClusterCertificateChainResponseCallback>(callback),
+                  Platform::Delete<CHIPOperationalCredentialsClusterCertificateChainResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPOperationalCredentialsClusterCertificateChainResponseCallbackType>::FromCancelable(
+            onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OperationalCredentialsCluster, opCSRRequest)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray CSRNonce)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    OperationalCredentialsCluster * cppCluster;
+
+    chip::app::Clusters::OperationalCredentials::Commands::OpCSRRequest::Type request;
+
+    request.CSRNonce = chip::JniByteArray(env, static_cast<jbyteArray>(CSRNonce)).byteSpan();
+
+    std::unique_ptr<CHIPOperationalCredentialsClusterOpCSRResponseCallback,
+                    void (*)(CHIPOperationalCredentialsClusterOpCSRResponseCallback *)>
+        onSuccess(Platform::New<CHIPOperationalCredentialsClusterOpCSRResponseCallback>(callback),
+                  Platform::Delete<CHIPOperationalCredentialsClusterOpCSRResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPOperationalCredentialsClusterOpCSRResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OperationalCredentialsCluster, removeFabric)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject fabricIndex)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    OperationalCredentialsCluster * cppCluster;
+
+    chip::app::Clusters::OperationalCredentials::Commands::RemoveFabric::Type request;
+
+    request.fabricIndex =
+        static_cast<decltype(request.fabricIndex)>(chip::JniReferences::GetInstance().IntegerToPrimitive(fabricIndex));
+
+    std::unique_ptr<CHIPOperationalCredentialsClusterNOCResponseCallback,
+                    void (*)(CHIPOperationalCredentialsClusterNOCResponseCallback *)>
+        onSuccess(Platform::New<CHIPOperationalCredentialsClusterNOCResponseCallback>(callback),
+                  Platform::Delete<CHIPOperationalCredentialsClusterNOCResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPOperationalCredentialsClusterNOCResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OperationalCredentialsCluster, removeTrustedRootCertificate)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray trustedRootIdentifier)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    OperationalCredentialsCluster * cppCluster;
+
+    chip::app::Clusters::OperationalCredentials::Commands::RemoveTrustedRootCertificate::Type request;
+
+    request.trustedRootIdentifier = chip::JniByteArray(env, static_cast<jbyteArray>(trustedRootIdentifier)).byteSpan();
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OperationalCredentialsCluster, updateFabricLabel)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jstring label)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    OperationalCredentialsCluster * cppCluster;
+
+    chip::app::Clusters::OperationalCredentials::Commands::UpdateFabricLabel::Type request;
+
+    request.label = chip::JniUtfString(env, static_cast<jstring>(label)).charSpan();
+
+    std::unique_ptr<CHIPOperationalCredentialsClusterNOCResponseCallback,
+                    void (*)(CHIPOperationalCredentialsClusterNOCResponseCallback *)>
+        onSuccess(Platform::New<CHIPOperationalCredentialsClusterNOCResponseCallback>(callback),
+                  Platform::Delete<CHIPOperationalCredentialsClusterNOCResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPOperationalCredentialsClusterNOCResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OperationalCredentialsCluster, updateNOC)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray NOCValue, jobject ICACValue)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    OperationalCredentialsCluster * cppCluster;
+
+    chip::app::Clusters::OperationalCredentials::Commands::UpdateNOC::Type request;
+
+    request.NOCValue = chip::JniByteArray(env, static_cast<jbyteArray>(NOCValue)).byteSpan();
+    chip::JniReferences::GetInstance().GetOptionalValue(ICACValue, ICACValue);
+    request.ICACValue = chip::Optional<chip::ByteSpan>(chip::JniByteArray(env, static_cast<jbyteArray>(ICACValue)).byteSpan());
+
+    std::unique_ptr<CHIPOperationalCredentialsClusterNOCResponseCallback,
+                    void (*)(CHIPOperationalCredentialsClusterNOCResponseCallback *)>
+        onSuccess(Platform::New<CHIPOperationalCredentialsClusterNOCResponseCallback>(callback),
+                  Platform::Delete<CHIPOperationalCredentialsClusterNOCResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPOperationalCredentialsClusterNOCResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, OperationalCredentialsCluster, subscribeSupportedFabricsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    OperationalCredentialsCluster * cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeSupportedFabrics(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OperationalCredentialsCluster, reportSupportedFabricsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    OperationalCredentialsCluster * cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeSupportedFabrics(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, OperationalCredentialsCluster, subscribeCommissionedFabricsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    OperationalCredentialsCluster * cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeCommissionedFabrics(onSuccess->Cancel(), onFailure->Cancel(),
+                                                            static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OperationalCredentialsCluster, reportCommissionedFabricsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    OperationalCredentialsCluster * cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeCommissionedFabrics(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, OperationalCredentialsCluster, subscribeCurrentFabricIndexAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    OperationalCredentialsCluster * cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeCurrentFabricIndex(onSuccess->Cancel(), onFailure->Cancel(),
+                                                           static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OperationalCredentialsCluster, reportCurrentFabricIndexAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    OperationalCredentialsCluster * cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeCurrentFabricIndex(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, OperationalCredentialsCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    OperationalCredentialsCluster * cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, OperationalCredentialsCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    OperationalCredentialsCluster * cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, PowerSourceCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    PowerSourceCluster * cppCluster = new PowerSourceCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, PowerSourceCluster, subscribeStatusAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeStatus(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                               static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PowerSourceCluster, reportStatusAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeStatus(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PowerSourceCluster, subscribeOrderAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeOrder(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                              static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PowerSourceCluster, reportOrderAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeOrder(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PowerSourceCluster, subscribeDescriptionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeDescription(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PowerSourceCluster, reportDescriptionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeDescription(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PowerSourceCluster, subscribeBatteryVoltageAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeBatteryVoltage(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PowerSourceCluster, reportBatteryVoltageAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeBatteryVoltage(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PowerSourceCluster, subscribeBatteryPercentRemainingAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeBatteryPercentRemaining(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PowerSourceCluster, reportBatteryPercentRemainingAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeBatteryPercentRemaining(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PowerSourceCluster, subscribeBatteryTimeRemainingAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeBatteryTimeRemaining(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PowerSourceCluster, reportBatteryTimeRemainingAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeBatteryTimeRemaining(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PowerSourceCluster, subscribeBatteryChargeLevelAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeBatteryChargeLevel(onSuccess->Cancel(), onFailure->Cancel(),
+                                                           static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PowerSourceCluster, reportBatteryChargeLevelAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeBatteryChargeLevel(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PowerSourceCluster, subscribeBatteryChargeStateAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeBatteryChargeState(onSuccess->Cancel(), onFailure->Cancel(),
+                                                           static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PowerSourceCluster, reportBatteryChargeStateAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeBatteryChargeState(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PowerSourceCluster, subscribeFeatureMapAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeFeatureMap(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PowerSourceCluster, reportFeatureMapAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeFeatureMap(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PowerSourceCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PowerSourceCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    PowerSourceCluster * cppCluster = reinterpret_cast<PowerSourceCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, PressureMeasurementCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    PressureMeasurementCluster * cppCluster = new PressureMeasurementCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, PressureMeasurementCluster, subscribeMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    PressureMeasurementCluster * cppCluster = reinterpret_cast<PressureMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMeasuredValue(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PressureMeasurementCluster, reportMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    PressureMeasurementCluster * cppCluster = reinterpret_cast<PressureMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMeasuredValue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PressureMeasurementCluster, subscribeMinMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    PressureMeasurementCluster * cppCluster = reinterpret_cast<PressureMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMinMeasuredValue(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PressureMeasurementCluster, reportMinMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    PressureMeasurementCluster * cppCluster = reinterpret_cast<PressureMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMinMeasuredValue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PressureMeasurementCluster, subscribeMaxMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    PressureMeasurementCluster * cppCluster = reinterpret_cast<PressureMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMaxMeasuredValue(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PressureMeasurementCluster, reportMaxMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    PressureMeasurementCluster * cppCluster = reinterpret_cast<PressureMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMaxMeasuredValue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PressureMeasurementCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    PressureMeasurementCluster * cppCluster = reinterpret_cast<PressureMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PressureMeasurementCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    PressureMeasurementCluster * cppCluster = reinterpret_cast<PressureMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, PumpConfigurationAndControlCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    PumpConfigurationAndControlCluster * cppCluster = new PumpConfigurationAndControlCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeMaxPressureAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMaxPressure(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportMaxPressureAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMaxPressure(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeMaxSpeedAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMaxSpeed(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                 static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportMaxSpeedAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMaxSpeed(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeMaxFlowAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMaxFlow(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportMaxFlowAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMaxFlow(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeMinConstPressureAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMinConstPressure(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportMinConstPressureAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMinConstPressure(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeMaxConstPressureAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMaxConstPressure(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportMaxConstPressureAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMaxConstPressure(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeMinCompPressureAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMinCompPressure(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportMinCompPressureAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMinCompPressure(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeMaxCompPressureAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMaxCompPressure(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportMaxCompPressureAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMaxCompPressure(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeMinConstSpeedAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMinConstSpeed(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportMinConstSpeedAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMinConstSpeed(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeMaxConstSpeedAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMaxConstSpeed(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportMaxConstSpeedAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMaxConstSpeed(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeMinConstFlowAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMinConstFlow(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportMinConstFlowAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMinConstFlow(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeMaxConstFlowAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMaxConstFlow(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportMaxConstFlowAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMaxConstFlow(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeMinConstTempAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMinConstTemp(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportMinConstTempAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMinConstTemp(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeMaxConstTempAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMaxConstTemp(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportMaxConstTempAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMaxConstTemp(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribePumpStatusAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributePumpStatus(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportPumpStatusAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributePumpStatus(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeEffectiveOperationModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeEffectiveOperationMode(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportEffectiveOperationModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeEffectiveOperationMode(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeEffectiveControlModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeEffectiveControlMode(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportEffectiveControlModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeEffectiveControlMode(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeCapacityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeCapacity(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                 static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportCapacityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeCapacity(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeSpeedAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeSpeed(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                              static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportSpeedAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeSpeed(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeLifetimeEnergyConsumedAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeLifetimeEnergyConsumed(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportLifetimeEnergyConsumedAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeLifetimeEnergyConsumed(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, writeOperationModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeOperationMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeOperationModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeOperationMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportOperationModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeOperationMode(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, writeControlModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeControlMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeControlModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeControlMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportControlModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeControlMode(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeAlarmMaskAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeAlarmMask(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportAlarmMaskAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeAlarmMask(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeFeatureMapAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeFeatureMap(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportFeatureMapAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeFeatureMap(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, PumpConfigurationAndControlCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, RelativeHumidityMeasurementCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    RelativeHumidityMeasurementCluster * cppCluster = new RelativeHumidityMeasurementCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, RelativeHumidityMeasurementCluster, subscribeMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    RelativeHumidityMeasurementCluster * cppCluster = reinterpret_cast<RelativeHumidityMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMeasuredValue(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, RelativeHumidityMeasurementCluster, reportMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    RelativeHumidityMeasurementCluster * cppCluster = reinterpret_cast<RelativeHumidityMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMeasuredValue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, RelativeHumidityMeasurementCluster, subscribeMinMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    RelativeHumidityMeasurementCluster * cppCluster = reinterpret_cast<RelativeHumidityMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMinMeasuredValue(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, RelativeHumidityMeasurementCluster, reportMinMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    RelativeHumidityMeasurementCluster * cppCluster = reinterpret_cast<RelativeHumidityMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMinMeasuredValue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, RelativeHumidityMeasurementCluster, subscribeMaxMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    RelativeHumidityMeasurementCluster * cppCluster = reinterpret_cast<RelativeHumidityMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMaxMeasuredValue(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, RelativeHumidityMeasurementCluster, reportMaxMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    RelativeHumidityMeasurementCluster * cppCluster = reinterpret_cast<RelativeHumidityMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMaxMeasuredValue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, RelativeHumidityMeasurementCluster, subscribeToleranceAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    RelativeHumidityMeasurementCluster * cppCluster = reinterpret_cast<RelativeHumidityMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeTolerance(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, RelativeHumidityMeasurementCluster, reportToleranceAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    RelativeHumidityMeasurementCluster * cppCluster = reinterpret_cast<RelativeHumidityMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeTolerance(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, RelativeHumidityMeasurementCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    RelativeHumidityMeasurementCluster * cppCluster = reinterpret_cast<RelativeHumidityMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, RelativeHumidityMeasurementCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                                  = CHIP_NO_ERROR;
+    RelativeHumidityMeasurementCluster * cppCluster = reinterpret_cast<RelativeHumidityMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, ScenesCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    ScenesCluster * cppCluster = new ScenesCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, ScenesCluster, addScene)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId, jobject sceneId, jobject transitionTime,
+ jstring sceneName, jobject clusterId, jobject length, jobject value)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ScenesCluster * cppCluster;
+
+    chip::app::Clusters::Scenes::Commands::AddScene::Type request;
+
+    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
+    request.sceneId = static_cast<decltype(request.sceneId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(sceneId));
+    request.transitionTime =
+        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+    request.sceneName = chip::JniUtfString(env, static_cast<jstring>(sceneName)).charSpan();
+    request.extensionFieldSets =
+        chip::app::DataModel::List<const chip::app::Clusters::Scenes::Structs::SceneExtensionFieldSet::Type>();
+
+    std::unique_ptr<CHIPScenesClusterAddSceneResponseCallback, void (*)(CHIPScenesClusterAddSceneResponseCallback *)> onSuccess(
+        Platform::New<CHIPScenesClusterAddSceneResponseCallback>(callback),
+        Platform::Delete<CHIPScenesClusterAddSceneResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPScenesClusterAddSceneResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ScenesCluster, getSceneMembership)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ScenesCluster * cppCluster;
+
+    chip::app::Clusters::Scenes::Commands::GetSceneMembership::Type request;
+
+    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
+
+    std::unique_ptr<CHIPScenesClusterGetSceneMembershipResponseCallback,
+                    void (*)(CHIPScenesClusterGetSceneMembershipResponseCallback *)>
+        onSuccess(Platform::New<CHIPScenesClusterGetSceneMembershipResponseCallback>(callback),
+                  Platform::Delete<CHIPScenesClusterGetSceneMembershipResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPScenesClusterGetSceneMembershipResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ScenesCluster, recallScene)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId, jobject sceneId, jobject transitionTime)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ScenesCluster * cppCluster;
+
+    chip::app::Clusters::Scenes::Commands::RecallScene::Type request;
+
+    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
+    request.sceneId = static_cast<decltype(request.sceneId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(sceneId));
+    request.transitionTime =
+        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ScenesCluster, removeAllScenes)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ScenesCluster * cppCluster;
+
+    chip::app::Clusters::Scenes::Commands::RemoveAllScenes::Type request;
+
+    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
+
+    std::unique_ptr<CHIPScenesClusterRemoveAllScenesResponseCallback, void (*)(CHIPScenesClusterRemoveAllScenesResponseCallback *)>
+        onSuccess(Platform::New<CHIPScenesClusterRemoveAllScenesResponseCallback>(callback),
+                  Platform::Delete<CHIPScenesClusterRemoveAllScenesResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPScenesClusterRemoveAllScenesResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ScenesCluster, removeScene)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId, jobject sceneId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ScenesCluster * cppCluster;
+
+    chip::app::Clusters::Scenes::Commands::RemoveScene::Type request;
+
+    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
+    request.sceneId = static_cast<decltype(request.sceneId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(sceneId));
+
+    std::unique_ptr<CHIPScenesClusterRemoveSceneResponseCallback, void (*)(CHIPScenesClusterRemoveSceneResponseCallback *)>
+        onSuccess(Platform::New<CHIPScenesClusterRemoveSceneResponseCallback>(callback),
+                  Platform::Delete<CHIPScenesClusterRemoveSceneResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPScenesClusterRemoveSceneResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ScenesCluster, storeScene)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId, jobject sceneId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ScenesCluster * cppCluster;
+
+    chip::app::Clusters::Scenes::Commands::StoreScene::Type request;
+
+    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
+    request.sceneId = static_cast<decltype(request.sceneId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(sceneId));
+
+    std::unique_ptr<CHIPScenesClusterStoreSceneResponseCallback, void (*)(CHIPScenesClusterStoreSceneResponseCallback *)> onSuccess(
+        Platform::New<CHIPScenesClusterStoreSceneResponseCallback>(callback),
+        Platform::Delete<CHIPScenesClusterStoreSceneResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPScenesClusterStoreSceneResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ScenesCluster, viewScene)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId, jobject sceneId)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ScenesCluster * cppCluster;
+
+    chip::app::Clusters::Scenes::Commands::ViewScene::Type request;
+
+    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
+    request.sceneId = static_cast<decltype(request.sceneId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(sceneId));
+
+    std::unique_ptr<CHIPScenesClusterViewSceneResponseCallback, void (*)(CHIPScenesClusterViewSceneResponseCallback *)> onSuccess(
+        Platform::New<CHIPScenesClusterViewSceneResponseCallback>(callback),
+        Platform::Delete<CHIPScenesClusterViewSceneResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPScenesClusterViewSceneResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ScenesCluster, subscribeSceneCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    ScenesCluster * cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeSceneCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ScenesCluster, reportSceneCountAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    ScenesCluster * cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeSceneCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ScenesCluster, subscribeCurrentSceneAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    ScenesCluster * cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeCurrentScene(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ScenesCluster, reportCurrentSceneAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    ScenesCluster * cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeCurrentScene(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ScenesCluster, subscribeCurrentGroupAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    ScenesCluster * cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeCurrentGroup(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ScenesCluster, reportCurrentGroupAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    ScenesCluster * cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeCurrentGroup(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ScenesCluster, subscribeSceneValidAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    ScenesCluster * cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeSceneValid(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ScenesCluster, reportSceneValidAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPBooleanAttributeCallback, void (*)(CHIPBooleanAttributeCallback *)> onReport(
+        Platform::New<CHIPBooleanAttributeCallback>(callback, true), Platform::Delete<CHIPBooleanAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    ScenesCluster * cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeSceneValid(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ScenesCluster, subscribeNameSupportAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    ScenesCluster * cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNameSupport(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ScenesCluster, reportNameSupportAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    ScenesCluster * cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNameSupport(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ScenesCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    ScenesCluster * cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ScenesCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    ScenesCluster * cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, SoftwareDiagnosticsCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    SoftwareDiagnosticsCluster * cppCluster = new SoftwareDiagnosticsCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, SoftwareDiagnosticsCluster, resetWatermarks)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    SoftwareDiagnosticsCluster * cppCluster;
+
+    chip::app::Clusters::SoftwareDiagnostics::Commands::ResetWatermarks::Type request;
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<SoftwareDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, SoftwareDiagnosticsCluster, subscribeCurrentHeapFreeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    SoftwareDiagnosticsCluster * cppCluster = reinterpret_cast<SoftwareDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeCurrentHeapFree(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, SoftwareDiagnosticsCluster, reportCurrentHeapFreeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    SoftwareDiagnosticsCluster * cppCluster = reinterpret_cast<SoftwareDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeCurrentHeapFree(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, SoftwareDiagnosticsCluster, subscribeCurrentHeapUsedAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    SoftwareDiagnosticsCluster * cppCluster = reinterpret_cast<SoftwareDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeCurrentHeapUsed(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, SoftwareDiagnosticsCluster, reportCurrentHeapUsedAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    SoftwareDiagnosticsCluster * cppCluster = reinterpret_cast<SoftwareDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeCurrentHeapUsed(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, SoftwareDiagnosticsCluster, subscribeCurrentHeapHighWatermarkAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    SoftwareDiagnosticsCluster * cppCluster = reinterpret_cast<SoftwareDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeCurrentHeapHighWatermark(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, SoftwareDiagnosticsCluster, reportCurrentHeapHighWatermarkAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    SoftwareDiagnosticsCluster * cppCluster = reinterpret_cast<SoftwareDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeCurrentHeapHighWatermark(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, SoftwareDiagnosticsCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    SoftwareDiagnosticsCluster * cppCluster = reinterpret_cast<SoftwareDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, SoftwareDiagnosticsCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                          = CHIP_NO_ERROR;
+    SoftwareDiagnosticsCluster * cppCluster = reinterpret_cast<SoftwareDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, SwitchCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    SwitchCluster * cppCluster = new SwitchCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, SwitchCluster, subscribeNumberOfPositionsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    SwitchCluster * cppCluster = reinterpret_cast<SwitchCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNumberOfPositions(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, SwitchCluster, reportNumberOfPositionsAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    SwitchCluster * cppCluster = reinterpret_cast<SwitchCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNumberOfPositions(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, SwitchCluster, subscribeCurrentPositionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    SwitchCluster * cppCluster = reinterpret_cast<SwitchCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeCurrentPosition(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, SwitchCluster, reportCurrentPositionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    SwitchCluster * cppCluster = reinterpret_cast<SwitchCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeCurrentPosition(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, SwitchCluster, subscribeMultiPressMaxAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    SwitchCluster * cppCluster = reinterpret_cast<SwitchCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMultiPressMax(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, SwitchCluster, reportMultiPressMaxAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    SwitchCluster * cppCluster = reinterpret_cast<SwitchCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMultiPressMax(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, SwitchCluster, subscribeFeatureMapAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    SwitchCluster * cppCluster = reinterpret_cast<SwitchCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeFeatureMap(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, SwitchCluster, reportFeatureMapAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    SwitchCluster * cppCluster = reinterpret_cast<SwitchCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeFeatureMap(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, SwitchCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    SwitchCluster * cppCluster = reinterpret_cast<SwitchCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, SwitchCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err             = CHIP_NO_ERROR;
+    SwitchCluster * cppCluster = reinterpret_cast<SwitchCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, TvChannelCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    TvChannelCluster * cppCluster = new TvChannelCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, TvChannelCluster, changeChannel)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jstring match)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    TvChannelCluster * cppCluster;
+
+    chip::app::Clusters::TvChannel::Commands::ChangeChannel::Type request;
+
+    request.match = chip::JniUtfString(env, static_cast<jstring>(match)).charSpan();
+
+    std::unique_ptr<CHIPTvChannelClusterChangeChannelResponseCallback,
+                    void (*)(CHIPTvChannelClusterChangeChannelResponseCallback *)>
+        onSuccess(Platform::New<CHIPTvChannelClusterChangeChannelResponseCallback>(callback),
+                  Platform::Delete<CHIPTvChannelClusterChangeChannelResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<TvChannelCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPTvChannelClusterChangeChannelResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TvChannelCluster, changeChannelByNumber)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject majorNumber, jobject minorNumber)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    TvChannelCluster * cppCluster;
+
+    chip::app::Clusters::TvChannel::Commands::ChangeChannelByNumber::Type request;
+
+    request.majorNumber =
+        static_cast<decltype(request.majorNumber)>(chip::JniReferences::GetInstance().IntegerToPrimitive(majorNumber));
+    request.minorNumber =
+        static_cast<decltype(request.minorNumber)>(chip::JniReferences::GetInstance().IntegerToPrimitive(minorNumber));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<TvChannelCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TvChannelCluster, skipChannel)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject count)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    TvChannelCluster * cppCluster;
+
+    chip::app::Clusters::TvChannel::Commands::SkipChannel::Type request;
+
+    request.count = static_cast<decltype(request.count)>(chip::JniReferences::GetInstance().IntegerToPrimitive(count));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<TvChannelCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TvChannelCluster, subscribeTvChannelLineupAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                = CHIP_NO_ERROR;
+    TvChannelCluster * cppCluster = reinterpret_cast<TvChannelCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeTvChannelLineup(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TvChannelCluster, reportTvChannelLineupAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPOctetStringAttributeCallback, void (*)(CHIPOctetStringAttributeCallback *)> onReport(
+        Platform::New<CHIPOctetStringAttributeCallback>(callback, true), Platform::Delete<CHIPOctetStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                = CHIP_NO_ERROR;
+    TvChannelCluster * cppCluster = reinterpret_cast<TvChannelCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeTvChannelLineup(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, TvChannelCluster, subscribeCurrentTvChannelAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                = CHIP_NO_ERROR;
+    TvChannelCluster * cppCluster = reinterpret_cast<TvChannelCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeCurrentTvChannel(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TvChannelCluster, reportCurrentTvChannelAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPOctetStringAttributeCallback, void (*)(CHIPOctetStringAttributeCallback *)> onReport(
+        Platform::New<CHIPOctetStringAttributeCallback>(callback, true), Platform::Delete<CHIPOctetStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                = CHIP_NO_ERROR;
+    TvChannelCluster * cppCluster = reinterpret_cast<TvChannelCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeCurrentTvChannel(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, TvChannelCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                = CHIP_NO_ERROR;
+    TvChannelCluster * cppCluster = reinterpret_cast<TvChannelCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TvChannelCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                = CHIP_NO_ERROR;
+    TvChannelCluster * cppCluster = reinterpret_cast<TvChannelCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, TargetNavigatorCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    TargetNavigatorCluster * cppCluster = new TargetNavigatorCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, TargetNavigatorCluster, navigateTarget)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject target, jstring data)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    TargetNavigatorCluster * cppCluster;
+
+    chip::app::Clusters::TargetNavigator::Commands::NavigateTarget::Type request;
+
+    request.target = static_cast<decltype(request.target)>(chip::JniReferences::GetInstance().IntegerToPrimitive(target));
+    request.data   = chip::JniUtfString(env, static_cast<jstring>(data)).charSpan();
+
+    std::unique_ptr<CHIPTargetNavigatorClusterNavigateTargetResponseCallback,
+                    void (*)(CHIPTargetNavigatorClusterNavigateTargetResponseCallback *)>
+        onSuccess(Platform::New<CHIPTargetNavigatorClusterNavigateTargetResponseCallback>(callback),
+                  Platform::Delete<CHIPTargetNavigatorClusterNavigateTargetResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<TargetNavigatorCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPTargetNavigatorClusterNavigateTargetResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TargetNavigatorCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                      = CHIP_NO_ERROR;
+    TargetNavigatorCluster * cppCluster = reinterpret_cast<TargetNavigatorCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TargetNavigatorCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                      = CHIP_NO_ERROR;
+    TargetNavigatorCluster * cppCluster = reinterpret_cast<TargetNavigatorCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, TemperatureMeasurementCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    TemperatureMeasurementCluster * cppCluster = new TemperatureMeasurementCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, TemperatureMeasurementCluster, subscribeMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    TemperatureMeasurementCluster * cppCluster = reinterpret_cast<TemperatureMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMeasuredValue(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TemperatureMeasurementCluster, reportMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    TemperatureMeasurementCluster * cppCluster = reinterpret_cast<TemperatureMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMeasuredValue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, TemperatureMeasurementCluster, subscribeMinMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    TemperatureMeasurementCluster * cppCluster = reinterpret_cast<TemperatureMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMinMeasuredValue(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TemperatureMeasurementCluster, reportMinMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    TemperatureMeasurementCluster * cppCluster = reinterpret_cast<TemperatureMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMinMeasuredValue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, TemperatureMeasurementCluster, subscribeMaxMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    TemperatureMeasurementCluster * cppCluster = reinterpret_cast<TemperatureMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMaxMeasuredValue(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TemperatureMeasurementCluster, reportMaxMeasuredValueAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    TemperatureMeasurementCluster * cppCluster = reinterpret_cast<TemperatureMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMaxMeasuredValue(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, TemperatureMeasurementCluster, subscribeToleranceAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    TemperatureMeasurementCluster * cppCluster = reinterpret_cast<TemperatureMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeTolerance(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TemperatureMeasurementCluster, reportToleranceAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    TemperatureMeasurementCluster * cppCluster = reinterpret_cast<TemperatureMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeTolerance(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, TemperatureMeasurementCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    TemperatureMeasurementCluster * cppCluster = reinterpret_cast<TemperatureMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TemperatureMeasurementCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    TemperatureMeasurementCluster * cppCluster = reinterpret_cast<TemperatureMeasurementCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, TestClusterCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    TestClusterCluster * cppCluster = new TestClusterCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, TestClusterCluster, test)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster;
+
+    chip::app::Clusters::TestCluster::Commands::Test::Type request;
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, testAddArguments)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject arg1, jobject arg2)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster;
+
+    chip::app::Clusters::TestCluster::Commands::TestAddArguments::Type request;
+
+    request.arg1 = static_cast<decltype(request.arg1)>(chip::JniReferences::GetInstance().IntegerToPrimitive(arg1));
+    request.arg2 = static_cast<decltype(request.arg2)>(chip::JniReferences::GetInstance().IntegerToPrimitive(arg2));
+
+    std::unique_ptr<CHIPTestClusterClusterTestAddArgumentsResponseCallback,
+                    void (*)(CHIPTestClusterClusterTestAddArgumentsResponseCallback *)>
+        onSuccess(Platform::New<CHIPTestClusterClusterTestAddArgumentsResponseCallback>(callback),
+                  Platform::Delete<CHIPTestClusterClusterTestAddArgumentsResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPTestClusterClusterTestAddArgumentsResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, testEnumsRequest)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject arg1, jobject arg2)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster;
+
+    chip::app::Clusters::TestCluster::Commands::TestEnumsRequest::Type request;
+
+    request.arg1 = static_cast<decltype(request.arg1)>(chip::JniReferences::GetInstance().IntegerToPrimitive(arg1));
+    request.arg2 = static_cast<decltype(request.arg2)>(chip::JniReferences::GetInstance().IntegerToPrimitive(arg2));
+
+    std::unique_ptr<CHIPTestClusterClusterTestEnumsResponseCallback, void (*)(CHIPTestClusterClusterTestEnumsResponseCallback *)>
+        onSuccess(Platform::New<CHIPTestClusterClusterTestEnumsResponseCallback>(callback),
+                  Platform::Delete<CHIPTestClusterClusterTestEnumsResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPTestClusterClusterTestEnumsResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, testListInt8UArgumentRequest)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject arg1)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster;
+
+    chip::app::Clusters::TestCluster::Commands::TestListInt8UArgumentRequest::Type request;
+
+    request.arg1 = chip::app::DataModel::List<const uint8_t>();
+
+    std::unique_ptr<CHIPTestClusterClusterBooleanResponseCallback, void (*)(CHIPTestClusterClusterBooleanResponseCallback *)>
+        onSuccess(Platform::New<CHIPTestClusterClusterBooleanResponseCallback>(callback),
+                  Platform::Delete<CHIPTestClusterClusterBooleanResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPTestClusterClusterBooleanResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, testListInt8UReverseRequest)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject arg1)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster;
+
+    chip::app::Clusters::TestCluster::Commands::TestListInt8UReverseRequest::Type request;
+
+    request.arg1 = chip::app::DataModel::List<const uint8_t>();
+
+    std::unique_ptr<CHIPTestClusterClusterTestListInt8UReverseResponseCallback,
+                    void (*)(CHIPTestClusterClusterTestListInt8UReverseResponseCallback *)>
+        onSuccess(Platform::New<CHIPTestClusterClusterTestListInt8UReverseResponseCallback>(callback),
+                  Platform::Delete<CHIPTestClusterClusterTestListInt8UReverseResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPTestClusterClusterTestListInt8UReverseResponseCallbackType>::FromCancelable(
+        onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, testListStructArgumentRequest)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject a, jobject b, jobject c, jbyteArray d, jstring e,
+ jobject f)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster;
+
+    chip::app::Clusters::TestCluster::Commands::TestListStructArgumentRequest::Type request;
+
+    request.arg1 = chip::app::DataModel::List<const chip::app::Clusters::TestCluster::Structs::SimpleStruct::Type>();
+
+    std::unique_ptr<CHIPTestClusterClusterBooleanResponseCallback, void (*)(CHIPTestClusterClusterBooleanResponseCallback *)>
+        onSuccess(Platform::New<CHIPTestClusterClusterBooleanResponseCallback>(callback),
+                  Platform::Delete<CHIPTestClusterClusterBooleanResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPTestClusterClusterBooleanResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, testNotHandled)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster;
+
+    chip::app::Clusters::TestCluster::Commands::TestNotHandled::Type request;
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, testNullableOptionalRequest)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject arg1)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster;
+
+    chip::app::Clusters::TestCluster::Commands::TestNullableOptionalRequest::Type request;
+
+    chip::JniReferences::GetInstance().GetOptionalValue(arg1, arg1);
+    uint8_t arg1Value;
+    if (arg1 != nullptr)
+    {
+        arg1Value = chip::JniReferences::GetInstance().IntegerToPrimitive(arg1);
+    }
+    request.arg1 = chip::Optional<chip::app::DataModel::Nullable<uint8_t>>(
+        arg1 == nullptr ? chip::app::DataModel::Nullable<uint8_t>() : chip::app::DataModel::Nullable<uint8_t>(arg1Value));
+
+    std::unique_ptr<CHIPTestClusterClusterTestNullableOptionalResponseCallback,
+                    void (*)(CHIPTestClusterClusterTestNullableOptionalResponseCallback *)>
+        onSuccess(Platform::New<CHIPTestClusterClusterTestNullableOptionalResponseCallback>(callback),
+                  Platform::Delete<CHIPTestClusterClusterTestNullableOptionalResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPTestClusterClusterTestNullableOptionalResponseCallbackType>::FromCancelable(
+        onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, testSpecific)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster;
+
+    chip::app::Clusters::TestCluster::Commands::TestSpecific::Type request;
+
+    std::unique_ptr<CHIPTestClusterClusterTestSpecificResponseCallback,
+                    void (*)(CHIPTestClusterClusterTestSpecificResponseCallback *)>
+        onSuccess(Platform::New<CHIPTestClusterClusterTestSpecificResponseCallback>(callback),
+                  Platform::Delete<CHIPTestClusterClusterTestSpecificResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPTestClusterClusterTestSpecificResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, testStructArgumentRequest)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject a, jobject b, jobject c, jbyteArray d, jstring e,
+ jobject f)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster;
+
+    chip::app::Clusters::TestCluster::Commands::TestStructArgumentRequest::Type request;
+
+    request.arg1 = chip::app::Clusters::TestCluster::Structs::SimpleStruct::Type();
+
+    std::unique_ptr<CHIPTestClusterClusterBooleanResponseCallback, void (*)(CHIPTestClusterClusterBooleanResponseCallback *)>
+        onSuccess(Platform::New<CHIPTestClusterClusterBooleanResponseCallback>(callback),
+                  Platform::Delete<CHIPTestClusterClusterBooleanResponseCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn =
+        chip::Callback::Callback<CHIPTestClusterClusterBooleanResponseCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, testUnknownCommand)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster;
+
+    chip::app::Clusters::TestCluster::Commands::TestUnknownCommand::Type request;
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeBooleanAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jboolean value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeBoolean(onSuccess->Cancel(), onFailure->Cancel(), static_cast<bool>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeBooleanAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeBoolean(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportBooleanAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPBooleanAttributeCallback, void (*)(CHIPBooleanAttributeCallback *)> onReport(
+        Platform::New<CHIPBooleanAttributeCallback>(callback, true), Platform::Delete<CHIPBooleanAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeBoolean(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeBitmap8Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeBitmap8(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeBitmap8Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeBitmap8(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportBitmap8Attribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeBitmap8(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeBitmap16Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeBitmap16(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeBitmap16Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeBitmap16(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                 static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportBitmap16Attribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeBitmap16(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeBitmap32Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeBitmap32(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint32_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeBitmap32Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeBitmap32(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                 static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportBitmap32Attribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeBitmap32(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeBitmap64Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeBitmap64(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint64_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeBitmap64Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeBitmap64(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                 static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportBitmap64Attribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeBitmap64(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeInt8uAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeInt8u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeInt8uAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeInt8u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                              static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportInt8uAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeInt8u(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeInt16uAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeInt16u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeInt16uAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeInt16u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                               static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportInt16uAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeInt16u(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeInt32uAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeInt32u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint32_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeInt32uAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeInt32u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                               static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportInt32uAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeInt32u(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeInt64uAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeInt64u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint64_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeInt64uAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeInt64u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                               static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportInt64uAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeInt64u(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeInt8sAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeInt8s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeInt8sAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeInt8s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                              static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportInt8sAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8sAttributeCallback, void (*)(CHIPInt8sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8sAttributeCallback>(callback, true), Platform::Delete<CHIPInt8sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeInt8s(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeInt16sAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeInt16s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeInt16sAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeInt16s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                               static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportInt16sAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeInt16s(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeInt32sAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeInt32s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int32_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeInt32sAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeInt32s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                               static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportInt32sAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32sAttributeCallback, void (*)(CHIPInt32sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32sAttributeCallback>(callback, true), Platform::Delete<CHIPInt32sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeInt32s(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeInt64sAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeInt64s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int64_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeInt64sAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeInt64s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                               static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportInt64sAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64sAttributeCallback, void (*)(CHIPInt64sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64sAttributeCallback>(callback, true), Platform::Delete<CHIPInt64sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeInt64s(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeEnum8Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeEnum8(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeEnum8Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeEnum8(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                              static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportEnum8Attribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeEnum8(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeEnum16Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeEnum16(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeEnum16Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeEnum16(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                               static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportEnum16Attribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeEnum16(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeOctetStringAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    JniByteArray jniArr(env, value);
+    err = cppCluster->WriteAttributeOctetString(onSuccess->Cancel(), onFailure->Cancel(),
+                                                chip::ByteSpan((const uint8_t *) jniArr.data(), jniArr.size()));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeOctetStringAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeOctetString(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportOctetStringAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPOctetStringAttributeCallback, void (*)(CHIPOctetStringAttributeCallback *)> onReport(
+        Platform::New<CHIPOctetStringAttributeCallback>(callback, true), Platform::Delete<CHIPOctetStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeOctetString(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeLongOctetStringAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    JniByteArray jniArr(env, value);
+    err = cppCluster->WriteAttributeLongOctetString(onSuccess->Cancel(), onFailure->Cancel(),
+                                                    chip::ByteSpan((const uint8_t *) jniArr.data(), jniArr.size()));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeLongOctetStringAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeLongOctetString(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportLongOctetStringAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPOctetStringAttributeCallback, void (*)(CHIPOctetStringAttributeCallback *)> onReport(
+        Platform::New<CHIPOctetStringAttributeCallback>(callback, true), Platform::Delete<CHIPOctetStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeLongOctetString(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeCharStringAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jstring value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    JniUtfString valueStr(env, value);
+    err = cppCluster->WriteAttributeCharString(onSuccess->Cancel(), onFailure->Cancel(),
+                                               chip::CharSpan(valueStr.c_str(), strlen(valueStr.c_str())));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeCharStringAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeCharString(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportCharStringAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeCharString(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeLongCharStringAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jstring value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    JniUtfString valueStr(env, value);
+    err = cppCluster->WriteAttributeLongCharString(onSuccess->Cancel(), onFailure->Cancel(),
+                                                   chip::CharSpan(valueStr.c_str(), strlen(valueStr.c_str())));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeLongCharStringAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeLongCharString(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportLongCharStringAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeLongCharString(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeEpochUsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeEpochUs(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint64_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeEpochUsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeEpochUs(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportEpochUsAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeEpochUs(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeEpochSAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeEpochS(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint32_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeEpochSAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeEpochS(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                               static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportEpochSAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeEpochS(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeVendorIdAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeVendorId(onSuccess->Cancel(), onFailure->Cancel(), static_cast<chip::VendorId>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeVendorIdAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeVendorId(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                 static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportVendorIdAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeVendorId(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeUnsupportedAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jboolean value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeUnsupported(onSuccess->Cancel(), onFailure->Cancel(), static_cast<bool>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeUnsupportedAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeUnsupported(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportUnsupportedAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPBooleanAttributeCallback, void (*)(CHIPBooleanAttributeCallback *)> onReport(
+        Platform::New<CHIPBooleanAttributeCallback>(callback, true), Platform::Delete<CHIPBooleanAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeUnsupported(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeNullableBooleanAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jboolean value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeNullableBoolean(onSuccess->Cancel(), onFailure->Cancel(), static_cast<bool>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeNullableBooleanAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNullableBoolean(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportNullableBooleanAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPBooleanAttributeCallback, void (*)(CHIPBooleanAttributeCallback *)> onReport(
+        Platform::New<CHIPBooleanAttributeCallback>(callback, true), Platform::Delete<CHIPBooleanAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNullableBoolean(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeNullableBitmap8Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeNullableBitmap8(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeNullableBitmap8Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNullableBitmap8(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportNullableBitmap8Attribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNullableBitmap8(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeNullableBitmap16Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeNullableBitmap16(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeNullableBitmap16Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNullableBitmap16(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportNullableBitmap16Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNullableBitmap16(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeNullableBitmap32Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeNullableBitmap32(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint32_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeNullableBitmap32Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNullableBitmap32(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportNullableBitmap32Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNullableBitmap32(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeNullableBitmap64Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeNullableBitmap64(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint64_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeNullableBitmap64Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNullableBitmap64(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportNullableBitmap64Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNullableBitmap64(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeNullableInt8uAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeNullableInt8u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeNullableInt8uAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNullableInt8u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportNullableInt8uAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNullableInt8u(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeNullableInt16uAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeNullableInt16u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeNullableInt16uAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNullableInt16u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportNullableInt16uAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNullableInt16u(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeNullableInt32uAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeNullableInt32u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint32_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeNullableInt32uAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNullableInt32u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportNullableInt32uAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNullableInt32u(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeNullableInt64uAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeNullableInt64u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint64_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeNullableInt64uAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNullableInt64u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportNullableInt64uAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNullableInt64u(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeNullableInt8sAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeNullableInt8s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeNullableInt8sAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNullableInt8s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportNullableInt8sAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8sAttributeCallback, void (*)(CHIPInt8sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8sAttributeCallback>(callback, true), Platform::Delete<CHIPInt8sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNullableInt8s(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeNullableInt16sAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeNullableInt16s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeNullableInt16sAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNullableInt16s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportNullableInt16sAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNullableInt16s(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeNullableInt32sAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeNullableInt32s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int32_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeNullableInt32sAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNullableInt32s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportNullableInt32sAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32sAttributeCallback, void (*)(CHIPInt32sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32sAttributeCallback>(callback, true), Platform::Delete<CHIPInt32sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNullableInt32s(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeNullableInt64sAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeNullableInt64s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int64_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeNullableInt64sAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNullableInt64s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportNullableInt64sAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64sAttributeCallback, void (*)(CHIPInt64sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64sAttributeCallback>(callback, true), Platform::Delete<CHIPInt64sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNullableInt64s(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeNullableEnum8Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeNullableEnum8(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeNullableEnum8Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNullableEnum8(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportNullableEnum8Attribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNullableEnum8(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeNullableEnum16Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeNullableEnum16(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeNullableEnum16Attribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNullableEnum16(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportNullableEnum16Attribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNullableEnum16(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeNullableOctetStringAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    JniByteArray jniArr(env, value);
+    err = cppCluster->WriteAttributeNullableOctetString(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        chip::ByteSpan((const uint8_t *) jniArr.data(), jniArr.size()));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeNullableOctetStringAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNullableOctetString(onSuccess->Cancel(), onFailure->Cancel(),
+                                                            static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportNullableOctetStringAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPOctetStringAttributeCallback, void (*)(CHIPOctetStringAttributeCallback *)> onReport(
+        Platform::New<CHIPOctetStringAttributeCallback>(callback, true), Platform::Delete<CHIPOctetStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNullableOctetString(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, writeNullableCharStringAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jstring value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    JniUtfString valueStr(env, value);
+    err = cppCluster->WriteAttributeNullableCharString(onSuccess->Cancel(), onFailure->Cancel(),
+                                                       chip::CharSpan(valueStr.c_str(), strlen(valueStr.c_str())));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeNullableCharStringAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNullableCharString(onSuccess->Cancel(), onFailure->Cancel(),
+                                                           static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportNullableCharStringAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNullableCharString(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, TestClusterCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, TestClusterCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                  = CHIP_NO_ERROR;
+    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, ThermostatCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    ThermostatCluster * cppCluster = new ThermostatCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, ThermostatCluster, clearWeeklySchedule)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster;
+
+    chip::app::Clusters::Thermostat::Commands::ClearWeeklySchedule::Type request;
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ThermostatCluster, getRelayStatusLog)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster;
+
+    chip::app::Clusters::Thermostat::Commands::GetRelayStatusLog::Type request;
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ThermostatCluster, getWeeklySchedule)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject daysToReturn, jobject modeToReturn)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster;
+
+    chip::app::Clusters::Thermostat::Commands::GetWeeklySchedule::Type request;
+
+    request.daysToReturn =
+        static_cast<decltype(request.daysToReturn)>(chip::JniReferences::GetInstance().IntegerToPrimitive(daysToReturn));
+    request.modeToReturn =
+        static_cast<decltype(request.modeToReturn)>(chip::JniReferences::GetInstance().IntegerToPrimitive(modeToReturn));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ThermostatCluster, setWeeklySchedule)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject numberOfTransitionsForSequence,
+ jobject dayOfWeekForSequence, jobject modeForSequence, jobject payload)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster;
+
+    chip::app::Clusters::Thermostat::Commands::SetWeeklySchedule::Type request;
+
+    request.numberOfTransitionsForSequence = static_cast<decltype(request.numberOfTransitionsForSequence)>(
+        chip::JniReferences::GetInstance().IntegerToPrimitive(numberOfTransitionsForSequence));
+    request.dayOfWeekForSequence = static_cast<decltype(request.dayOfWeekForSequence)>(
+        chip::JniReferences::GetInstance().IntegerToPrimitive(dayOfWeekForSequence));
+    request.modeForSequence =
+        static_cast<decltype(request.modeForSequence)>(chip::JniReferences::GetInstance().IntegerToPrimitive(modeForSequence));
+    request.payload = chip::app::DataModel::List<const uint8_t>();
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ThermostatCluster, setpointRaiseLower)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject mode, jobject amount)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster;
+
+    chip::app::Clusters::Thermostat::Commands::SetpointRaiseLower::Type request;
+
+    request.mode   = static_cast<decltype(request.mode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(mode));
+    request.amount = static_cast<decltype(request.amount)>(chip::JniReferences::GetInstance().IntegerToPrimitive(amount));
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+
+    cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ThermostatCluster, subscribeLocalTemperatureAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeLocalTemperature(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, reportLocalTemperatureAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeLocalTemperature(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThermostatCluster, subscribeAbsMinHeatSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeAbsMinHeatSetpointLimit(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, reportAbsMinHeatSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeAbsMinHeatSetpointLimit(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThermostatCluster, subscribeAbsMaxHeatSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeAbsMaxHeatSetpointLimit(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, reportAbsMaxHeatSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeAbsMaxHeatSetpointLimit(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThermostatCluster, subscribeAbsMinCoolSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeAbsMinCoolSetpointLimit(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, reportAbsMinCoolSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeAbsMinCoolSetpointLimit(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThermostatCluster, subscribeAbsMaxCoolSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeAbsMaxCoolSetpointLimit(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, reportAbsMaxCoolSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeAbsMaxCoolSetpointLimit(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, writeOccupiedCoolingSetpointAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeOccupiedCoolingSetpoint(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ThermostatCluster, subscribeOccupiedCoolingSetpointAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeOccupiedCoolingSetpoint(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, reportOccupiedCoolingSetpointAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeOccupiedCoolingSetpoint(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, writeOccupiedHeatingSetpointAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeOccupiedHeatingSetpoint(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ThermostatCluster, subscribeOccupiedHeatingSetpointAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeOccupiedHeatingSetpoint(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, reportOccupiedHeatingSetpointAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeOccupiedHeatingSetpoint(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, writeMinHeatSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeMinHeatSetpointLimit(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ThermostatCluster, subscribeMinHeatSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMinHeatSetpointLimit(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, reportMinHeatSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMinHeatSetpointLimit(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, writeMaxHeatSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeMaxHeatSetpointLimit(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ThermostatCluster, subscribeMaxHeatSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMaxHeatSetpointLimit(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, reportMaxHeatSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMaxHeatSetpointLimit(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, writeMinCoolSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeMinCoolSetpointLimit(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ThermostatCluster, subscribeMinCoolSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMinCoolSetpointLimit(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, reportMinCoolSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMinCoolSetpointLimit(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, writeMaxCoolSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeMaxCoolSetpointLimit(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int16_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ThermostatCluster, subscribeMaxCoolSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMaxCoolSetpointLimit(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, reportMaxCoolSetpointLimitAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMaxCoolSetpointLimit(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, writeMinSetpointDeadBandAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeMinSetpointDeadBand(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ThermostatCluster, subscribeMinSetpointDeadBandAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeMinSetpointDeadBand(onSuccess->Cancel(), onFailure->Cancel(),
+                                                            static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, reportMinSetpointDeadBandAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8sAttributeCallback, void (*)(CHIPInt8sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8sAttributeCallback>(callback, true), Platform::Delete<CHIPInt8sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeMinSetpointDeadBand(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, writeControlSequenceOfOperationAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err =
+        cppCluster->WriteAttributeControlSequenceOfOperation(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ThermostatCluster, subscribeControlSequenceOfOperationAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeControlSequenceOfOperation(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, reportControlSequenceOfOperationAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeControlSequenceOfOperation(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, writeSystemModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeSystemMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ThermostatCluster, subscribeSystemModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeSystemMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, reportSystemModeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeSystemMode(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThermostatCluster, subscribeStartOfWeekAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeStartOfWeek(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, reportStartOfWeekAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeStartOfWeek(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThermostatCluster, subscribeNumberOfWeeklyTransitionsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNumberOfWeeklyTransitions(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, reportNumberOfWeeklyTransitionsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNumberOfWeeklyTransitions(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThermostatCluster, subscribeNumberOfDailyTransitionsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeNumberOfDailyTransitions(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, reportNumberOfDailyTransitionsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeNumberOfDailyTransitions(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThermostatCluster, subscribeFeatureMapAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeFeatureMap(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, reportFeatureMapAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeFeatureMap(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThermostatCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                 = CHIP_NO_ERROR;
+    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(jlong, ThermostatUserInterfaceConfigurationCluster, initWithDevice)
+(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    ThermostatUserInterfaceConfigurationCluster * cppCluster = new ThermostatUserInterfaceConfigurationCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, ThermostatUserInterfaceConfigurationCluster, writeTemperatureDisplayModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ThermostatUserInterfaceConfigurationCluster * cppCluster =
+        reinterpret_cast<ThermostatUserInterfaceConfigurationCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeTemperatureDisplayMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ThermostatUserInterfaceConfigurationCluster, subscribeTemperatureDisplayModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ThermostatUserInterfaceConfigurationCluster * cppCluster =
+        reinterpret_cast<ThermostatUserInterfaceConfigurationCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeTemperatureDisplayMode(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
-    request.operationalDataset = chip::JniByteArray(env, static_cast<jbyteArray>(operationalDataset)).byteSpan();
-    request.breadcrumb = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
-    request.timeoutMs  = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatUserInterfaceConfigurationCluster, reportTemperatureDisplayModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ThermostatUserInterfaceConfigurationCluster * cppCluster =
+        reinterpret_cast<ThermostatUserInterfaceConfigurationCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeTemperatureDisplayMode(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ThermostatUserInterfaceConfigurationCluster, writeKeypadLockoutAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPNetworkCommissioningClusterUpdateThreadNetworkResponseCallback,
-                    void (*)(CHIPNetworkCommissioningClusterUpdateThreadNetworkResponseCallback *)>
-        onSuccess(Platform::New<CHIPNetworkCommissioningClusterUpdateThreadNetworkResponseCallback>(callback),
-                  Platform::Delete<CHIPNetworkCommissioningClusterUpdateThreadNetworkResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ThermostatUserInterfaceConfigurationCluster * cppCluster =
+        reinterpret_cast<ThermostatUserInterfaceConfigurationCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeKeypadLockout(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ThermostatUserInterfaceConfigurationCluster, subscribeKeypadLockoutAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ThermostatUserInterfaceConfigurationCluster * cppCluster =
+        reinterpret_cast<ThermostatUserInterfaceConfigurationCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPNetworkCommissioningClusterUpdateThreadNetworkResponseCallbackType>::FromCancelable(
-            onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+    err = cppCluster->SubscribeAttributeKeypadLockout(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatUserInterfaceConfigurationCluster, reportKeypadLockoutAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ThermostatUserInterfaceConfigurationCluster * cppCluster =
+        reinterpret_cast<ThermostatUserInterfaceConfigurationCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeKeypadLockout(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+
+JNI_METHOD(void, ThermostatUserInterfaceConfigurationCluster, writeScheduleProgrammingVisibilityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ThermostatUserInterfaceConfigurationCluster * cppCluster =
+        reinterpret_cast<ThermostatUserInterfaceConfigurationCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeScheduleProgrammingVisibility(onSuccess->Cancel(), onFailure->Cancel(),
+                                                                  static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, ThermostatUserInterfaceConfigurationCluster, subscribeScheduleProgrammingVisibilityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ThermostatUserInterfaceConfigurationCluster * cppCluster =
+        reinterpret_cast<ThermostatUserInterfaceConfigurationCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeScheduleProgrammingVisibility(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatUserInterfaceConfigurationCluster, reportScheduleProgrammingVisibilityAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ThermostatUserInterfaceConfigurationCluster * cppCluster =
+        reinterpret_cast<ThermostatUserInterfaceConfigurationCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeScheduleProgrammingVisibility(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThermostatUserInterfaceConfigurationCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ThermostatUserInterfaceConfigurationCluster * cppCluster =
+        reinterpret_cast<ThermostatUserInterfaceConfigurationCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThermostatUserInterfaceConfigurationCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ThermostatUserInterfaceConfigurationCluster * cppCluster =
+        reinterpret_cast<ThermostatUserInterfaceConfigurationCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-JNI_METHOD(void, NetworkCommissioningCluster, updateWiFiNetwork)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray ssid, jbyteArray credentials, jobject breadcrumb,
- jobject timeoutMs)
+JNI_METHOD(jlong, ThreadNetworkDiagnosticsCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    NetworkCommissioningCluster * cppCluster;
+    ThreadNetworkDiagnosticsCluster * cppCluster = new ThreadNetworkDiagnosticsCluster();
 
-    chip::app::Clusters::NetworkCommissioning::Commands::UpdateWiFiNetwork::Type request;
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
 
-    request.ssid        = chip::JniByteArray(env, static_cast<jbyteArray>(ssid)).byteSpan();
-    request.credentials = chip::JniByteArray(env, static_cast<jbyteArray>(credentials)).byteSpan();
-    request.breadcrumb  = static_cast<decltype(request.breadcrumb)>(chip::JniReferences::GetInstance().LongToPrimitive(breadcrumb));
-    request.timeoutMs   = static_cast<decltype(request.timeoutMs)>(chip::JniReferences::GetInstance().LongToPrimitive(timeoutMs));
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, resetCounts)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster;
 
-    std::unique_ptr<CHIPNetworkCommissioningClusterUpdateWiFiNetworkResponseCallback,
-                    void (*)(CHIPNetworkCommissioningClusterUpdateWiFiNetworkResponseCallback *)>
-        onSuccess(Platform::New<CHIPNetworkCommissioningClusterUpdateWiFiNetworkResponseCallback>(callback),
-                  Platform::Delete<CHIPNetworkCommissioningClusterUpdateWiFiNetworkResponseCallback>);
+    chip::app::Clusters::ThreadNetworkDiagnostics::Commands::ResetCounts::Type request;
+
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
@@ -6765,13 +28781,12 @@ JNI_METHOD(void, NetworkCommissioningCluster, updateWiFiNetwork)
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<NetworkCommissioningCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn = chip::Callback::Callback<CHIPNetworkCommissioningClusterUpdateWiFiNetworkResponseCallbackType>::FromCancelable(
-        onSuccess->Cancel());
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
     auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
 
     err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
@@ -6782,213 +28797,228 @@ JNI_METHOD(void, NetworkCommissioningCluster, updateWiFiNetwork)
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, OtaSoftwareUpdateProviderCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    OtaSoftwareUpdateProviderCluster * cppCluster = new OtaSoftwareUpdateProviderCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(void, OtaSoftwareUpdateProviderCluster, applyUpdateRequest)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray updateToken, jobject newVersion)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeChannelAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    OtaSoftwareUpdateProviderCluster * cppCluster;
-
-    chip::app::Clusters::OtaSoftwareUpdateProvider::Commands::ApplyUpdateRequest::Type request;
-
-    request.updateToken = chip::JniByteArray(env, static_cast<jbyteArray>(updateToken)).byteSpan();
-    request.newVersion  = static_cast<decltype(request.newVersion)>(chip::JniReferences::GetInstance().LongToPrimitive(newVersion));
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPOtaSoftwareUpdateProviderClusterApplyUpdateResponseCallback,
-                    void (*)(CHIPOtaSoftwareUpdateProviderClusterApplyUpdateResponseCallback *)>
-        onSuccess(Platform::New<CHIPOtaSoftwareUpdateProviderClusterApplyUpdateResponseCallback>(callback),
-                  Platform::Delete<CHIPOtaSoftwareUpdateProviderClusterApplyUpdateResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<OtaSoftwareUpdateProviderCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPOtaSoftwareUpdateProviderClusterApplyUpdateResponseCallbackType>::FromCancelable(
-        onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeChannel(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, OtaSoftwareUpdateProviderCluster, notifyUpdateApplied)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray updateToken, jobject softwareVersion)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportChannelAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    OtaSoftwareUpdateProviderCluster * cppCluster;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::OtaSoftwareUpdateProvider::Commands::NotifyUpdateApplied::Type request;
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.updateToken = chip::JniByteArray(env, static_cast<jbyteArray>(updateToken)).byteSpan();
-    request.softwareVersion =
-        static_cast<decltype(request.softwareVersion)>(chip::JniReferences::GetInstance().LongToPrimitive(softwareVersion));
+    err = cppCluster->ReportAttributeChannel(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeRoutingRoleAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<OtaSoftwareUpdateProviderCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeRoutingRole(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, OtaSoftwareUpdateProviderCluster, queryImage)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject vendorId, jobject productId, jobject softwareVersion,
- jobject protocolsSupported, jobject hardwareVersion, jobject location, jobject requestorCanConsent, jobject metadataForProvider)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportRoutingRoleAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    OtaSoftwareUpdateProviderCluster * cppCluster;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::OtaSoftwareUpdateProvider::Commands::QueryImage::Type request;
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.vendorId  = static_cast<decltype(request.vendorId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(vendorId));
-    request.productId = static_cast<decltype(request.productId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(productId));
-    request.softwareVersion =
-        static_cast<decltype(request.softwareVersion)>(chip::JniReferences::GetInstance().LongToPrimitive(softwareVersion));
-    request.protocolsSupported =
-        chip::app::DataModel::List<const chip::app::Clusters::OtaSoftwareUpdateProvider::OTADownloadProtocol>();
-    chip::JniReferences::GetInstance().GetOptionalValue(hardwareVersion, hardwareVersion);
-    request.hardwareVersion = chip::Optional<uint16_t>(
-        static_cast<decltype(request.hardwareVersion)>(chip::JniReferences::GetInstance().IntegerToPrimitive(hardwareVersion)));
-    chip::JniReferences::GetInstance().GetOptionalValue(location, location);
-    request.location = chip::Optional<chip::CharSpan>(chip::JniUtfString(env, static_cast<jstring>(location)).charSpan());
-    chip::JniReferences::GetInstance().GetOptionalValue(requestorCanConsent, requestorCanConsent);
-    request.requestorCanConsent = chip::Optional<bool>(static_cast<decltype(request.requestorCanConsent)>(
-        chip::JniReferences::GetInstance().BooleanToPrimitive(requestorCanConsent)));
-    chip::JniReferences::GetInstance().GetOptionalValue(metadataForProvider, metadataForProvider);
-    request.metadataForProvider =
-        chip::Optional<chip::ByteSpan>(chip::JniByteArray(env, static_cast<jbyteArray>(metadataForProvider)).byteSpan());
+    err = cppCluster->ReportAttributeRoutingRole(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeNetworkNameAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPOtaSoftwareUpdateProviderClusterQueryImageResponseCallback,
-                    void (*)(CHIPOtaSoftwareUpdateProviderClusterQueryImageResponseCallback *)>
-        onSuccess(Platform::New<CHIPOtaSoftwareUpdateProviderClusterQueryImageResponseCallback>(callback),
-                  Platform::Delete<CHIPOtaSoftwareUpdateProviderClusterQueryImageResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<OtaSoftwareUpdateProviderCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPOtaSoftwareUpdateProviderClusterQueryImageResponseCallbackType>::FromCancelable(
-        onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeNetworkName(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, OtaSoftwareUpdateRequestorCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    OtaSoftwareUpdateRequestorCluster * cppCluster = new OtaSoftwareUpdateRequestorCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
 
-JNI_METHOD(void, OtaSoftwareUpdateRequestorCluster, announceOtaProvider)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject providerLocation, jobject vendorId,
- jobject announcementReason, jobject metadataForNode)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportNetworkNameAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    OtaSoftwareUpdateRequestorCluster * cppCluster;
+    std::unique_ptr<CHIPOctetStringAttributeCallback, void (*)(CHIPOctetStringAttributeCallback *)> onReport(
+        Platform::New<CHIPOctetStringAttributeCallback>(callback, true), Platform::Delete<CHIPOctetStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::OtaSoftwareUpdateRequestor::Commands::AnnounceOtaProvider::Type request;
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.providerLocation =
-        static_cast<decltype(request.providerLocation)>(chip::JniReferences::GetInstance().LongToPrimitive(providerLocation));
-    request.vendorId = static_cast<decltype(request.vendorId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(vendorId));
-    request.announcementReason = static_cast<decltype(request.announcementReason)>(
-        chip::JniReferences::GetInstance().IntegerToPrimitive(announcementReason));
-    chip::JniReferences::GetInstance().GetOptionalValue(metadataForNode, metadataForNode);
-    request.metadataForNode =
-        chip::Optional<chip::ByteSpan>(chip::JniByteArray(env, static_cast<jbyteArray>(metadataForNode)).byteSpan());
+    err = cppCluster->ReportAttributeNetworkName(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribePanIdAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<OtaSoftwareUpdateRequestorCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributePanId(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                              static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, OtaSoftwareUpdateRequestorCluster, writeDefaultOtaProviderAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportPanIdAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributePanId(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeExtendedPanIdAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -7003,32 +29033,46 @@ JNI_METHOD(void, OtaSoftwareUpdateRequestorCluster, writeDefaultOtaProviderAttri
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                                 = CHIP_NO_ERROR;
-    OtaSoftwareUpdateRequestorCluster * cppCluster = reinterpret_cast<OtaSoftwareUpdateRequestorCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    JniByteArray jniArr(env, value);
-    err = cppCluster->WriteAttributeDefaultOtaProvider(onSuccess->Cancel(), onFailure->Cancel(),
-                                                       chip::ByteSpan((const uint8_t *) jniArr.data(), jniArr.size()));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeExtendedPanId(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, OccupancySensingCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportExtendedPanIdAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    OccupancySensingCluster * cppCluster = new OccupancySensingCluster();
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-JNI_METHOD(void, OccupancySensingCluster, subscribeOccupancyAttribute)
+    err = cppCluster->ReportAttributeExtendedPanId(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeMeshLocalPrefixAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -7044,14 +29088,14 @@ JNI_METHOD(void, OccupancySensingCluster, subscribeOccupancyAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                       = CHIP_NO_ERROR;
-    OccupancySensingCluster * cppCluster = reinterpret_cast<OccupancySensingCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeOccupancy(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
-                                                  static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeMeshLocalPrefix(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -7060,261 +29104,305 @@ JNI_METHOD(void, OccupancySensingCluster, subscribeOccupancyAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, OccupancySensingCluster, reportOccupancyAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportMeshLocalPrefixAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
-        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    std::unique_ptr<CHIPOctetStringAttributeCallback, void (*)(CHIPOctetStringAttributeCallback *)> onReport(
+        Platform::New<CHIPOctetStringAttributeCallback>(callback, true), Platform::Delete<CHIPOctetStringAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                       = CHIP_NO_ERROR;
-    OccupancySensingCluster * cppCluster = reinterpret_cast<OccupancySensingCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeOccupancy(onReport->Cancel());
+    err = cppCluster->ReportAttributeMeshLocalPrefix(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-JNI_METHOD(jlong, OnOffCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    OnOffCluster * cppCluster = new OnOffCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(void, OnOffCluster, off)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeOverrunCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    OnOffCluster * cppCluster;
-
-    chip::app::Clusters::OnOff::Commands::Off::Type request;
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeOverrunCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, OnOffCluster, offWithEffect)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject effectId, jobject effectVariant)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportOverrunCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    OnOffCluster * cppCluster;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::OnOff::Commands::OffWithEffect::Type request;
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.effectId = static_cast<decltype(request.effectId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(effectId));
-    request.effectVariant =
-        static_cast<decltype(request.effectVariant)>(chip::JniReferences::GetInstance().IntegerToPrimitive(effectVariant));
+    err = cppCluster->ReportAttributeOverrunCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribePartitionIdAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributePartitionId(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, OnOffCluster, on)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportPartitionIdAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    OnOffCluster * cppCluster;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::OnOff::Commands::On::Type request;
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributePartitionId(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeWeightingAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+    err = cppCluster->SubscribeAttributeWeighting(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                  static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportWeightingAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributeWeighting(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-JNI_METHOD(void, OnOffCluster, onWithRecallGlobalScene)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeDataVersionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    OnOffCluster * cppCluster;
-
-    chip::app::Clusters::OnOff::Commands::OnWithRecallGlobalScene::Type request;
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeDataVersion(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, OnOffCluster, onWithTimedOff)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject onOffControl, jobject onTime, jobject offWaitTime)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportDataVersionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    OnOffCluster * cppCluster;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::OnOff::Commands::OnWithTimedOff::Type request;
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.onOffControl =
-        static_cast<decltype(request.onOffControl)>(chip::JniReferences::GetInstance().IntegerToPrimitive(onOffControl));
-    request.onTime = static_cast<decltype(request.onTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(onTime));
-    request.offWaitTime =
-        static_cast<decltype(request.offWaitTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(offWaitTime));
+    err = cppCluster->ReportAttributeDataVersion(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeStableDataVersionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeStableDataVersion(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, OnOffCluster, toggle)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportStableDataVersionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    OnOffCluster * cppCluster;
-
-    chip::app::Clusters::OnOff::Commands::Toggle::Type request;
-
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributeStableDataVersion(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, OnOffCluster, subscribeOnOffAttribute)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeLeaderRouterIdAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -7330,14 +29418,14 @@ JNI_METHOD(void, OnOffCluster, subscribeOnOffAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err            = CHIP_NO_ERROR;
-    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeOnOff(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
-                                              static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeLeaderRouterId(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -7346,30 +29434,31 @@ JNI_METHOD(void, OnOffCluster, subscribeOnOffAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, OnOffCluster, reportOnOffAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportLeaderRouterIdAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPBooleanAttributeCallback, void (*)(CHIPBooleanAttributeCallback *)> onReport(
-        Platform::New<CHIPBooleanAttributeCallback>(callback, true), Platform::Delete<CHIPBooleanAttributeCallback>);
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err            = CHIP_NO_ERROR;
-    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeOnOff(onReport->Cancel());
+    err = cppCluster->ReportAttributeLeaderRouterId(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-
-JNI_METHOD(void, OnOffCluster, writeOnTimeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeDetachedRoleCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -7384,23 +29473,47 @@ JNI_METHOD(void, OnOffCluster, writeOnTimeAttribute)(JNIEnv * env, jobject self,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err            = CHIP_NO_ERROR;
-    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeOnTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeDetachedRoleCount(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, OnOffCluster, writeOffWaitTimeAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportDetachedRoleCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeDetachedRoleCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeChildRoleCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -7415,23 +29528,47 @@ JNI_METHOD(void, OnOffCluster, writeOffWaitTimeAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err            = CHIP_NO_ERROR;
-    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeOffWaitTime(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeChildRoleCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, OnOffCluster, writeStartUpOnOffAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportChildRoleCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeChildRoleCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeRouterRoleCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -7446,31 +29583,47 @@ JNI_METHOD(void, OnOffCluster, writeStartUpOnOffAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err            = CHIP_NO_ERROR;
-    OnOffCluster * cppCluster = reinterpret_cast<OnOffCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeStartUpOnOff(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeRouterRoleCount(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportRouterRoleCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    onSuccess.release();
-    onFailure.release();
-}
-JNI_METHOD(jlong, OnOffSwitchConfigurationCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    OnOffSwitchConfigurationCluster * cppCluster = new OnOffSwitchConfigurationCluster();
+    err = cppCluster->ReportAttributeRouterRoleCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
+    onReport.release();
 }
-
-JNI_METHOD(void, OnOffSwitchConfigurationCluster, writeSwitchActionsAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeLeaderRoleCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -7486,423 +29639,375 @@ JNI_METHOD(void, OnOffSwitchConfigurationCluster, writeSwitchActionsAttribute)
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
     CHIP_ERROR err                               = CHIP_NO_ERROR;
-    OnOffSwitchConfigurationCluster * cppCluster = reinterpret_cast<OnOffSwitchConfigurationCluster *>(clusterPtr);
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeSwitchActions(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeLeaderRoleCount(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, OperationalCredentialsCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    OperationalCredentialsCluster * cppCluster = new OperationalCredentialsCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
 
-JNI_METHOD(void, OperationalCredentialsCluster, addNOC)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray NOCValue, jobject ICACValue, jbyteArray IPKValue,
- jobject caseAdminNode, jobject adminVendorId)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportLeaderRoleCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    OperationalCredentialsCluster * cppCluster;
-
-    chip::app::Clusters::OperationalCredentials::Commands::AddNOC::Type request;
-
-    request.NOCValue = chip::JniByteArray(env, static_cast<jbyteArray>(NOCValue)).byteSpan();
-    chip::JniReferences::GetInstance().GetOptionalValue(ICACValue, ICACValue);
-    request.ICACValue = chip::Optional<chip::ByteSpan>(chip::JniByteArray(env, static_cast<jbyteArray>(ICACValue)).byteSpan());
-    request.IPKValue  = chip::JniByteArray(env, static_cast<jbyteArray>(IPKValue)).byteSpan();
-    request.caseAdminNode =
-        static_cast<decltype(request.caseAdminNode)>(chip::JniReferences::GetInstance().LongToPrimitive(caseAdminNode));
-    request.adminVendorId =
-        static_cast<decltype(request.adminVendorId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(adminVendorId));
-
-    std::unique_ptr<CHIPOperationalCredentialsClusterNOCResponseCallback,
-                    void (*)(CHIPOperationalCredentialsClusterNOCResponseCallback *)>
-        onSuccess(Platform::New<CHIPOperationalCredentialsClusterNOCResponseCallback>(callback),
-                  Platform::Delete<CHIPOperationalCredentialsClusterNOCResponseCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPOperationalCredentialsClusterNOCResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributeLeaderRoleCount(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-JNI_METHOD(void, OperationalCredentialsCluster, addTrustedRootCertificate)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray rootCertificate)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeAttachAttemptCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    OperationalCredentialsCluster * cppCluster;
-
-    chip::app::Clusters::OperationalCredentials::Commands::AddTrustedRootCertificate::Type request;
-
-    request.rootCertificate = chip::JniByteArray(env, static_cast<jbyteArray>(rootCertificate)).byteSpan();
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeAttachAttemptCount(onSuccess->Cancel(), onFailure->Cancel(),
+                                                           static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, OperationalCredentialsCluster, attestationRequest)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray attestationNonce)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportAttachAttemptCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    OperationalCredentialsCluster * cppCluster;
-
-    chip::app::Clusters::OperationalCredentials::Commands::AttestationRequest::Type request;
-
-    request.attestationNonce = chip::JniByteArray(env, static_cast<jbyteArray>(attestationNonce)).byteSpan();
-
-    std::unique_ptr<CHIPOperationalCredentialsClusterAttestationResponseCallback,
-                    void (*)(CHIPOperationalCredentialsClusterAttestationResponseCallback *)>
-        onSuccess(Platform::New<CHIPOperationalCredentialsClusterAttestationResponseCallback>(callback),
-                  Platform::Delete<CHIPOperationalCredentialsClusterAttestationResponseCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPOperationalCredentialsClusterAttestationResponseCallbackType>::FromCancelable(
-        onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributeAttachAttemptCount(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-JNI_METHOD(void, OperationalCredentialsCluster, certificateChainRequest)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject certificateType)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribePartitionIdChangeCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    OperationalCredentialsCluster * cppCluster;
-
-    chip::app::Clusters::OperationalCredentials::Commands::CertificateChainRequest::Type request;
-
-    request.certificateType =
-        static_cast<decltype(request.certificateType)>(chip::JniReferences::GetInstance().IntegerToPrimitive(certificateType));
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPOperationalCredentialsClusterCertificateChainResponseCallback,
-                    void (*)(CHIPOperationalCredentialsClusterCertificateChainResponseCallback *)>
-        onSuccess(Platform::New<CHIPOperationalCredentialsClusterCertificateChainResponseCallback>(callback),
-                  Platform::Delete<CHIPOperationalCredentialsClusterCertificateChainResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPOperationalCredentialsClusterCertificateChainResponseCallbackType>::FromCancelable(
-            onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributePartitionIdChangeCount(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, OperationalCredentialsCluster, opCSRRequest)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray CSRNonce)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportPartitionIdChangeCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    OperationalCredentialsCluster * cppCluster;
-
-    chip::app::Clusters::OperationalCredentials::Commands::OpCSRRequest::Type request;
-
-    request.CSRNonce = chip::JniByteArray(env, static_cast<jbyteArray>(CSRNonce)).byteSpan();
-
-    std::unique_ptr<CHIPOperationalCredentialsClusterOpCSRResponseCallback,
-                    void (*)(CHIPOperationalCredentialsClusterOpCSRResponseCallback *)>
-        onSuccess(Platform::New<CHIPOperationalCredentialsClusterOpCSRResponseCallback>(callback),
-                  Platform::Delete<CHIPOperationalCredentialsClusterOpCSRResponseCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPOperationalCredentialsClusterOpCSRResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributePartitionIdChangeCount(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-JNI_METHOD(void, OperationalCredentialsCluster, removeFabric)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject fabricIndex)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeBetterPartitionAttachAttemptCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    OperationalCredentialsCluster * cppCluster;
-
-    chip::app::Clusters::OperationalCredentials::Commands::RemoveFabric::Type request;
-
-    request.fabricIndex =
-        static_cast<decltype(request.fabricIndex)>(chip::JniReferences::GetInstance().IntegerToPrimitive(fabricIndex));
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPOperationalCredentialsClusterNOCResponseCallback,
-                    void (*)(CHIPOperationalCredentialsClusterNOCResponseCallback *)>
-        onSuccess(Platform::New<CHIPOperationalCredentialsClusterNOCResponseCallback>(callback),
-                  Platform::Delete<CHIPOperationalCredentialsClusterNOCResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPOperationalCredentialsClusterNOCResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeBetterPartitionAttachAttemptCount(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, OperationalCredentialsCluster, removeTrustedRootCertificate)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray trustedRootIdentifier)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportBetterPartitionAttachAttemptCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    OperationalCredentialsCluster * cppCluster;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::OperationalCredentials::Commands::RemoveTrustedRootCertificate::Type request;
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.trustedRootIdentifier = chip::JniByteArray(env, static_cast<jbyteArray>(trustedRootIdentifier)).byteSpan();
+    err = cppCluster->ReportAttributeBetterPartitionAttachAttemptCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeParentChangeCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeParentChangeCount(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, OperationalCredentialsCluster, updateFabricLabel)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jstring label)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportParentChangeCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    OperationalCredentialsCluster * cppCluster;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::OperationalCredentials::Commands::UpdateFabricLabel::Type request;
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.label = chip::JniUtfString(env, static_cast<jstring>(label)).charSpan();
+    err = cppCluster->ReportAttributeParentChangeCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeTxTotalCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPOperationalCredentialsClusterNOCResponseCallback,
-                    void (*)(CHIPOperationalCredentialsClusterNOCResponseCallback *)>
-        onSuccess(Platform::New<CHIPOperationalCredentialsClusterNOCResponseCallback>(callback),
-                  Platform::Delete<CHIPOperationalCredentialsClusterNOCResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPOperationalCredentialsClusterNOCResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeTxTotalCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, OperationalCredentialsCluster, updateNOC)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray NOCValue, jobject ICACValue)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportTxTotalCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    OperationalCredentialsCluster * cppCluster;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::OperationalCredentials::Commands::UpdateNOC::Type request;
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.NOCValue = chip::JniByteArray(env, static_cast<jbyteArray>(NOCValue)).byteSpan();
-    chip::JniReferences::GetInstance().GetOptionalValue(ICACValue, ICACValue);
-    request.ICACValue = chip::Optional<chip::ByteSpan>(chip::JniByteArray(env, static_cast<jbyteArray>(ICACValue)).byteSpan());
+    err = cppCluster->ReportAttributeTxTotalCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeTxUnicastCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPOperationalCredentialsClusterNOCResponseCallback,
-                    void (*)(CHIPOperationalCredentialsClusterNOCResponseCallback *)>
-        onSuccess(Platform::New<CHIPOperationalCredentialsClusterNOCResponseCallback>(callback),
-                  Platform::Delete<CHIPOperationalCredentialsClusterNOCResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<OperationalCredentialsCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPOperationalCredentialsClusterNOCResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeTxUnicastCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, PowerSourceCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportTxUnicastCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    PowerSourceCluster * cppCluster = new PowerSourceCluster();
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-JNI_METHOD(jlong, PressureMeasurementCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    PressureMeasurementCluster * cppCluster = new PressureMeasurementCluster();
+    err = cppCluster->ReportAttributeTxUnicastCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
+    onReport.release();
 }
-
-JNI_METHOD(void, PressureMeasurementCluster, subscribeMeasuredValueAttribute)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeTxBroadcastCountAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -7918,14 +30023,14 @@ JNI_METHOD(void, PressureMeasurementCluster, subscribeMeasuredValueAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                          = CHIP_NO_ERROR;
-    PressureMeasurementCluster * cppCluster = reinterpret_cast<PressureMeasurementCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeMeasuredValue(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
-                                                      static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeTxBroadcastCount(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -7934,39 +30039,30 @@ JNI_METHOD(void, PressureMeasurementCluster, subscribeMeasuredValueAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, PressureMeasurementCluster, reportMeasuredValueAttribute)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportTxBroadcastCountAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
-        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                          = CHIP_NO_ERROR;
-    PressureMeasurementCluster * cppCluster = reinterpret_cast<PressureMeasurementCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeMeasuredValue(onReport->Cancel());
+    err = cppCluster->ReportAttributeTxBroadcastCount(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-JNI_METHOD(jlong, PumpConfigurationAndControlCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    PumpConfigurationAndControlCluster * cppCluster = new PumpConfigurationAndControlCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribePumpStatusAttribute)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeTxAckRequestedCountAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -7982,14 +30078,14 @@ JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribePumpStatusAttribut
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                                  = CHIP_NO_ERROR;
-    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributePumpStatus(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
-                                                   static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeTxAckRequestedCount(onSuccess->Cancel(), onFailure->Cancel(),
+                                                            static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -7998,31 +30094,30 @@ JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribePumpStatusAttribut
     onFailure.release();
 }
 
-JNI_METHOD(void, PumpConfigurationAndControlCluster, reportPumpStatusAttribute)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportTxAckRequestedCountAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
-        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                                  = CHIP_NO_ERROR;
-    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributePumpStatus(onReport->Cancel());
+    err = cppCluster->ReportAttributeTxAckRequestedCount(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-
-JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeCapacityAttribute)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeTxAckedCountAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -8038,14 +30133,14 @@ JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeCapacityAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                                  = CHIP_NO_ERROR;
-    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeCapacity(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
-                                                 static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeTxAckedCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -8054,32 +30149,31 @@ JNI_METHOD(void, PumpConfigurationAndControlCluster, subscribeCapacityAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, PumpConfigurationAndControlCluster, reportCapacityAttribute)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportTxAckedCountAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
-        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                                  = CHIP_NO_ERROR;
-    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeCapacity(onReport->Cancel());
+    err = cppCluster->ReportAttributeTxAckedCount(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-
-JNI_METHOD(void, PumpConfigurationAndControlCluster, writeOperationModeAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeTxNoAckRequestedCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -8094,61 +30188,46 @@ JNI_METHOD(void, PumpConfigurationAndControlCluster, writeOperationModeAttribute
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                                  = CHIP_NO_ERROR;
-    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeOperationMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeTxNoAckRequestedCount(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, PumpConfigurationAndControlCluster, writeControlModeAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportTxNoAckRequestedCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                                  = CHIP_NO_ERROR;
-    PumpConfigurationAndControlCluster * cppCluster = reinterpret_cast<PumpConfigurationAndControlCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeControlMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
-
-    onSuccess.release();
-    onFailure.release();
-}
-JNI_METHOD(jlong, RelativeHumidityMeasurementCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    RelativeHumidityMeasurementCluster * cppCluster = new RelativeHumidityMeasurementCluster();
+    err = cppCluster->ReportAttributeTxNoAckRequestedCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
+    onReport.release();
 }
-
-JNI_METHOD(void, RelativeHumidityMeasurementCluster, subscribeMeasuredValueAttribute)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeTxDataCountAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -8164,14 +30243,14 @@ JNI_METHOD(void, RelativeHumidityMeasurementCluster, subscribeMeasuredValueAttri
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                                  = CHIP_NO_ERROR;
-    RelativeHumidityMeasurementCluster * cppCluster = reinterpret_cast<RelativeHumidityMeasurementCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeMeasuredValue(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
-                                                      static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeTxDataCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -8180,31 +30259,30 @@ JNI_METHOD(void, RelativeHumidityMeasurementCluster, subscribeMeasuredValueAttri
     onFailure.release();
 }
 
-JNI_METHOD(void, RelativeHumidityMeasurementCluster, reportMeasuredValueAttribute)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportTxDataCountAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
-        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                                  = CHIP_NO_ERROR;
-    RelativeHumidityMeasurementCluster * cppCluster = reinterpret_cast<RelativeHumidityMeasurementCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeMeasuredValue(onReport->Cancel());
+    err = cppCluster->ReportAttributeTxDataCount(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-
-JNI_METHOD(void, RelativeHumidityMeasurementCluster, subscribeToleranceAttribute)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeTxDataPollCountAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -8220,14 +30298,14 @@ JNI_METHOD(void, RelativeHumidityMeasurementCluster, subscribeToleranceAttribute
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                                  = CHIP_NO_ERROR;
-    RelativeHumidityMeasurementCluster * cppCluster = reinterpret_cast<RelativeHumidityMeasurementCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeTolerance(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
-                                                  static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeTxDataPollCount(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -8236,379 +30314,360 @@ JNI_METHOD(void, RelativeHumidityMeasurementCluster, subscribeToleranceAttribute
     onFailure.release();
 }
 
-JNI_METHOD(void, RelativeHumidityMeasurementCluster, reportToleranceAttribute)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportTxDataPollCountAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
-        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                                  = CHIP_NO_ERROR;
-    RelativeHumidityMeasurementCluster * cppCluster = reinterpret_cast<RelativeHumidityMeasurementCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeTolerance(onReport->Cancel());
+    err = cppCluster->ReportAttributeTxDataPollCount(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-JNI_METHOD(jlong, ScenesCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    ScenesCluster * cppCluster = new ScenesCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(void, ScenesCluster, addScene)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId, jobject sceneId, jobject transitionTime,
- jstring sceneName, jobject clusterId, jobject length, jobject value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeTxBeaconCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ScenesCluster * cppCluster;
-
-    chip::app::Clusters::Scenes::Commands::AddScene::Type request;
-
-    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
-    request.sceneId = static_cast<decltype(request.sceneId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(sceneId));
-    request.transitionTime =
-        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
-    request.sceneName = chip::JniUtfString(env, static_cast<jstring>(sceneName)).charSpan();
-    request.extensionFieldSets =
-        chip::app::DataModel::List<const chip::app::Clusters::Scenes::Structs::SceneExtensionFieldSet::Type>();
-
-    std::unique_ptr<CHIPScenesClusterAddSceneResponseCallback, void (*)(CHIPScenesClusterAddSceneResponseCallback *)> onSuccess(
-        Platform::New<CHIPScenesClusterAddSceneResponseCallback>(callback),
-        Platform::Delete<CHIPScenesClusterAddSceneResponseCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-
-    cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
-    VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPScenesClusterAddSceneResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
-
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
-    VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
-
-    onSuccess.release();
-    onFailure.release();
-}
-JNI_METHOD(void, ScenesCluster, getSceneMembership)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId)
-{
-    chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ScenesCluster * cppCluster;
-
-    chip::app::Clusters::Scenes::Commands::GetSceneMembership::Type request;
-
-    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPScenesClusterGetSceneMembershipResponseCallback,
-                    void (*)(CHIPScenesClusterGetSceneMembershipResponseCallback *)>
-        onSuccess(Platform::New<CHIPScenesClusterGetSceneMembershipResponseCallback>(callback),
-                  Platform::Delete<CHIPScenesClusterGetSceneMembershipResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPScenesClusterGetSceneMembershipResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeTxBeaconCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ScenesCluster, recallScene)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId, jobject sceneId, jobject transitionTime)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportTxBeaconCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ScenesCluster * cppCluster;
-
-    chip::app::Clusters::Scenes::Commands::RecallScene::Type request;
-
-    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
-    request.sceneId = static_cast<decltype(request.sceneId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(sceneId));
-    request.transitionTime =
-        static_cast<decltype(request.transitionTime)>(chip::JniReferences::GetInstance().IntegerToPrimitive(transitionTime));
-
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributeTxBeaconCount(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
-
-    onSuccess.release();
-    onFailure.release();
-}
-JNI_METHOD(void, ScenesCluster, removeAllScenes)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId)
-{
-    chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ScenesCluster * cppCluster;
-
-    chip::app::Clusters::Scenes::Commands::RemoveAllScenes::Type request;
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeTxBeaconRequestCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPScenesClusterRemoveAllScenesResponseCallback, void (*)(CHIPScenesClusterRemoveAllScenesResponseCallback *)>
-        onSuccess(Platform::New<CHIPScenesClusterRemoveAllScenesResponseCallback>(callback),
-                  Platform::Delete<CHIPScenesClusterRemoveAllScenesResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPScenesClusterRemoveAllScenesResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeTxBeaconRequestCount(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ScenesCluster, removeScene)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId, jobject sceneId)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportTxBeaconRequestCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ScenesCluster * cppCluster;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::Scenes::Commands::RemoveScene::Type request;
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
-    request.sceneId = static_cast<decltype(request.sceneId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(sceneId));
+    err = cppCluster->ReportAttributeTxBeaconRequestCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeTxOtherCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPScenesClusterRemoveSceneResponseCallback, void (*)(CHIPScenesClusterRemoveSceneResponseCallback *)>
-        onSuccess(Platform::New<CHIPScenesClusterRemoveSceneResponseCallback>(callback),
-                  Platform::Delete<CHIPScenesClusterRemoveSceneResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPScenesClusterRemoveSceneResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeTxOtherCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ScenesCluster, storeScene)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId, jobject sceneId)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportTxOtherCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ScenesCluster * cppCluster;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::Scenes::Commands::StoreScene::Type request;
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
-    request.sceneId = static_cast<decltype(request.sceneId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(sceneId));
+    err = cppCluster->ReportAttributeTxOtherCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeTxRetryCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPScenesClusterStoreSceneResponseCallback, void (*)(CHIPScenesClusterStoreSceneResponseCallback *)> onSuccess(
-        Platform::New<CHIPScenesClusterStoreSceneResponseCallback>(callback),
-        Platform::Delete<CHIPScenesClusterStoreSceneResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPScenesClusterStoreSceneResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeTxRetryCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ScenesCluster, viewScene)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject groupId, jobject sceneId)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportTxRetryCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ScenesCluster * cppCluster;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::Scenes::Commands::ViewScene::Type request;
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.groupId = static_cast<decltype(request.groupId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(groupId));
-    request.sceneId = static_cast<decltype(request.sceneId)>(chip::JniReferences::GetInstance().IntegerToPrimitive(sceneId));
+    err = cppCluster->ReportAttributeTxRetryCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeTxDirectMaxRetryExpiryCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPScenesClusterViewSceneResponseCallback, void (*)(CHIPScenesClusterViewSceneResponseCallback *)> onSuccess(
-        Platform::New<CHIPScenesClusterViewSceneResponseCallback>(callback),
-        Platform::Delete<CHIPScenesClusterViewSceneResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ScenesCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPScenesClusterViewSceneResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeTxDirectMaxRetryExpiryCount(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, SoftwareDiagnosticsCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportTxDirectMaxRetryExpiryCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    SoftwareDiagnosticsCluster * cppCluster = new SoftwareDiagnosticsCluster();
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-JNI_METHOD(void, SoftwareDiagnosticsCluster, resetWatermarks)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+    err = cppCluster->ReportAttributeTxDirectMaxRetryExpiryCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeTxIndirectMaxRetryExpiryCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    SoftwareDiagnosticsCluster * cppCluster;
-
-    chip::app::Clusters::SoftwareDiagnostics::Commands::ResetWatermarks::Type request;
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<SoftwareDiagnosticsCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeTxIndirectMaxRetryExpiryCount(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, SwitchCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportTxIndirectMaxRetryExpiryCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    SwitchCluster * cppCluster = new SwitchCluster();
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-JNI_METHOD(void, SwitchCluster, subscribeCurrentPositionAttribute)
+    err = cppCluster->ReportAttributeTxIndirectMaxRetryExpiryCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeTxErrCcaCountAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -8624,14 +30683,14 @@ JNI_METHOD(void, SwitchCluster, subscribeCurrentPositionAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err             = CHIP_NO_ERROR;
-    SwitchCluster * cppCluster = reinterpret_cast<SwitchCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeCurrentPosition(onSuccess->Cancel(), onFailure->Cancel(),
-                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeTxErrCcaCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -8640,216 +30699,195 @@ JNI_METHOD(void, SwitchCluster, subscribeCurrentPositionAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, SwitchCluster, reportCurrentPositionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportTxErrCcaCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
-        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err             = CHIP_NO_ERROR;
-    SwitchCluster * cppCluster = reinterpret_cast<SwitchCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeCurrentPosition(onReport->Cancel());
+    err = cppCluster->ReportAttributeTxErrCcaCount(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-JNI_METHOD(jlong, TvChannelCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    TvChannelCluster * cppCluster = new TvChannelCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(void, TvChannelCluster, changeChannel)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jstring match)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeTxErrAbortCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    TvChannelCluster * cppCluster;
-
-    chip::app::Clusters::TvChannel::Commands::ChangeChannel::Type request;
-
-    request.match = chip::JniUtfString(env, static_cast<jstring>(match)).charSpan();
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPTvChannelClusterChangeChannelResponseCallback,
-                    void (*)(CHIPTvChannelClusterChangeChannelResponseCallback *)>
-        onSuccess(Platform::New<CHIPTvChannelClusterChangeChannelResponseCallback>(callback),
-                  Platform::Delete<CHIPTvChannelClusterChangeChannelResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<TvChannelCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPTvChannelClusterChangeChannelResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeTxErrAbortCount(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, TvChannelCluster, changeChannelByNumber)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject majorNumber, jobject minorNumber)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportTxErrAbortCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    TvChannelCluster * cppCluster;
-
-    chip::app::Clusters::TvChannel::Commands::ChangeChannelByNumber::Type request;
-
-    request.majorNumber =
-        static_cast<decltype(request.majorNumber)>(chip::JniReferences::GetInstance().IntegerToPrimitive(majorNumber));
-    request.minorNumber =
-        static_cast<decltype(request.minorNumber)>(chip::JniReferences::GetInstance().IntegerToPrimitive(minorNumber));
-
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<TvChannelCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributeTxErrAbortCount(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-JNI_METHOD(void, TvChannelCluster, skipChannel)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject count)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeTxErrBusyChannelCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    TvChannelCluster * cppCluster;
-
-    chip::app::Clusters::TvChannel::Commands::SkipChannel::Type request;
-
-    request.count = static_cast<decltype(request.count)>(chip::JniReferences::GetInstance().IntegerToPrimitive(count));
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<TvChannelCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeTxErrBusyChannelCount(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, TargetNavigatorCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportTxErrBusyChannelCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    TargetNavigatorCluster * cppCluster = new TargetNavigatorCluster();
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-JNI_METHOD(void, TargetNavigatorCluster, navigateTarget)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject target, jstring data)
+    err = cppCluster->ReportAttributeTxErrBusyChannelCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeRxTotalCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    TargetNavigatorCluster * cppCluster;
-
-    chip::app::Clusters::TargetNavigator::Commands::NavigateTarget::Type request;
-
-    request.target = static_cast<decltype(request.target)>(chip::JniReferences::GetInstance().IntegerToPrimitive(target));
-    request.data   = chip::JniUtfString(env, static_cast<jstring>(data)).charSpan();
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPTargetNavigatorClusterNavigateTargetResponseCallback,
-                    void (*)(CHIPTargetNavigatorClusterNavigateTargetResponseCallback *)>
-        onSuccess(Platform::New<CHIPTargetNavigatorClusterNavigateTargetResponseCallback>(callback),
-                  Platform::Delete<CHIPTargetNavigatorClusterNavigateTargetResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<TargetNavigatorCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPTargetNavigatorClusterNavigateTargetResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeRxTotalCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, TemperatureMeasurementCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportRxTotalCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    TemperatureMeasurementCluster * cppCluster = new TemperatureMeasurementCluster();
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-JNI_METHOD(void, TemperatureMeasurementCluster, subscribeMeasuredValueAttribute)
+    err = cppCluster->ReportAttributeRxTotalCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeRxUnicastCountAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -8865,14 +30903,14 @@ JNI_METHOD(void, TemperatureMeasurementCluster, subscribeMeasuredValueAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                             = CHIP_NO_ERROR;
-    TemperatureMeasurementCluster * cppCluster = reinterpret_cast<TemperatureMeasurementCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeMeasuredValue(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
-                                                      static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeRxUnicastCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -8881,31 +30919,30 @@ JNI_METHOD(void, TemperatureMeasurementCluster, subscribeMeasuredValueAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, TemperatureMeasurementCluster, reportMeasuredValueAttribute)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportRxUnicastCountAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
-        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
-
-    CHIP_ERROR err                             = CHIP_NO_ERROR;
-    TemperatureMeasurementCluster * cppCluster = reinterpret_cast<TemperatureMeasurementCluster *>(clusterPtr);
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeMeasuredValue(onReport->Cancel());
+    err = cppCluster->ReportAttributeRxUnicastCount(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-
-JNI_METHOD(void, TemperatureMeasurementCluster, subscribeToleranceAttribute)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeRxBroadcastCountAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -8921,14 +30958,14 @@ JNI_METHOD(void, TemperatureMeasurementCluster, subscribeToleranceAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                             = CHIP_NO_ERROR;
-    TemperatureMeasurementCluster * cppCluster = reinterpret_cast<TemperatureMeasurementCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeTolerance(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
-                                                  static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeRxBroadcastCount(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -8937,478 +30974,361 @@ JNI_METHOD(void, TemperatureMeasurementCluster, subscribeToleranceAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, TemperatureMeasurementCluster, reportToleranceAttribute)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportRxBroadcastCountAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
-        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                             = CHIP_NO_ERROR;
-    TemperatureMeasurementCluster * cppCluster = reinterpret_cast<TemperatureMeasurementCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeTolerance(onReport->Cancel());
+    err = cppCluster->ReportAttributeRxBroadcastCount(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-JNI_METHOD(jlong, TestClusterCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    TestClusterCluster * cppCluster = new TestClusterCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(void, TestClusterCluster, test)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeRxDataCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster;
-
-    chip::app::Clusters::TestCluster::Commands::Test::Type request;
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
     VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-
-    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
-    VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
-
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
-    VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
-
-    onSuccess.release();
-    onFailure.release();
-}
-JNI_METHOD(void, TestClusterCluster, testAddArguments)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject arg1, jobject arg2)
-{
-    chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster;
-
-    chip::app::Clusters::TestCluster::Commands::TestAddArguments::Type request;
-
-    request.arg1 = static_cast<decltype(request.arg1)>(chip::JniReferences::GetInstance().IntegerToPrimitive(arg1));
-    request.arg2 = static_cast<decltype(request.arg2)>(chip::JniReferences::GetInstance().IntegerToPrimitive(arg2));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPTestClusterClusterTestAddArgumentsResponseCallback,
-                    void (*)(CHIPTestClusterClusterTestAddArgumentsResponseCallback *)>
-        onSuccess(Platform::New<CHIPTestClusterClusterTestAddArgumentsResponseCallback>(callback),
-                  Platform::Delete<CHIPTestClusterClusterTestAddArgumentsResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPTestClusterClusterTestAddArgumentsResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeRxDataCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, TestClusterCluster, testEnumsRequest)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject arg1, jobject arg2)
-{
-    chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster;
-
-    chip::app::Clusters::TestCluster::Commands::TestEnumsRequest::Type request;
-
-    request.arg1 = static_cast<decltype(request.arg1)>(chip::JniReferences::GetInstance().IntegerToPrimitive(arg1));
-    request.arg2 = static_cast<decltype(request.arg2)>(chip::JniReferences::GetInstance().IntegerToPrimitive(arg2));
-
-    std::unique_ptr<CHIPTestClusterClusterTestEnumsResponseCallback, void (*)(CHIPTestClusterClusterTestEnumsResponseCallback *)>
-        onSuccess(Platform::New<CHIPTestClusterClusterTestEnumsResponseCallback>(callback),
-                  Platform::Delete<CHIPTestClusterClusterTestEnumsResponseCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-
-    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
-    VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPTestClusterClusterTestEnumsResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
-
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
-    VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
 
-    onSuccess.release();
-    onFailure.release();
-}
-JNI_METHOD(void, TestClusterCluster, testListInt8UArgumentRequest)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject arg1)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportRxDataCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster;
-
-    chip::app::Clusters::TestCluster::Commands::TestListInt8UArgumentRequest::Type request;
-
-    request.arg1 = chip::app::DataModel::List<const uint8_t>();
-
-    std::unique_ptr<CHIPTestClusterClusterBooleanResponseCallback, void (*)(CHIPTestClusterClusterBooleanResponseCallback *)>
-        onSuccess(Platform::New<CHIPTestClusterClusterBooleanResponseCallback>(callback),
-                  Platform::Delete<CHIPTestClusterClusterBooleanResponseCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPTestClusterClusterBooleanResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributeRxDataCount(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-JNI_METHOD(void, TestClusterCluster, testListInt8UReverseRequest)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject arg1)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeRxDataPollCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster;
-
-    chip::app::Clusters::TestCluster::Commands::TestListInt8UReverseRequest::Type request;
-
-    request.arg1 = chip::app::DataModel::List<const uint8_t>();
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPTestClusterClusterTestListInt8UReverseResponseCallback,
-                    void (*)(CHIPTestClusterClusterTestListInt8UReverseResponseCallback *)>
-        onSuccess(Platform::New<CHIPTestClusterClusterTestListInt8UReverseResponseCallback>(callback),
-                  Platform::Delete<CHIPTestClusterClusterTestListInt8UReverseResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPTestClusterClusterTestListInt8UReverseResponseCallbackType>::FromCancelable(
-        onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeRxDataPollCount(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, TestClusterCluster, testListStructArgumentRequest)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject a, jobject b, jobject c, jbyteArray d, jstring e,
- jobject f)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportRxDataPollCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster;
-
-    chip::app::Clusters::TestCluster::Commands::TestListStructArgumentRequest::Type request;
-
-    request.arg1 = chip::app::DataModel::List<const chip::app::Clusters::TestCluster::Structs::SimpleStruct::Type>();
-
-    std::unique_ptr<CHIPTestClusterClusterBooleanResponseCallback, void (*)(CHIPTestClusterClusterBooleanResponseCallback *)>
-        onSuccess(Platform::New<CHIPTestClusterClusterBooleanResponseCallback>(callback),
-                  Platform::Delete<CHIPTestClusterClusterBooleanResponseCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-
-    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
-    VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    auto successFn =
-        chip::Callback::Callback<CHIPTestClusterClusterBooleanResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributeRxDataPollCount(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-JNI_METHOD(void, TestClusterCluster, testNotHandled)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeRxBeaconCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster;
-
-    chip::app::Clusters::TestCluster::Commands::TestNotHandled::Type request;
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeRxBeaconCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, TestClusterCluster, testNullableOptionalRequest)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject arg1)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportRxBeaconCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster;
-
-    chip::app::Clusters::TestCluster::Commands::TestNullableOptionalRequest::Type request;
-
-    chip::JniReferences::GetInstance().GetOptionalValue(arg1, arg1);
-    uint8_t arg1Value;
-    if (arg1 != nullptr)
-    {
-        arg1Value = chip::JniReferences::GetInstance().IntegerToPrimitive(arg1);
-    }
-    request.arg1 = chip::Optional<chip::app::DataModel::Nullable<uint8_t>>(
-        arg1 == nullptr ? chip::app::DataModel::Nullable<uint8_t>() : chip::app::DataModel::Nullable<uint8_t>(arg1Value));
-
-    std::unique_ptr<CHIPTestClusterClusterTestNullableOptionalResponseCallback,
-                    void (*)(CHIPTestClusterClusterTestNullableOptionalResponseCallback *)>
-        onSuccess(Platform::New<CHIPTestClusterClusterTestNullableOptionalResponseCallback>(callback),
-                  Platform::Delete<CHIPTestClusterClusterTestNullableOptionalResponseCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPTestClusterClusterTestNullableOptionalResponseCallbackType>::FromCancelable(
-        onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributeRxBeaconCount(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-JNI_METHOD(void, TestClusterCluster, testSpecific)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeRxBeaconRequestCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster;
-
-    chip::app::Clusters::TestCluster::Commands::TestSpecific::Type request;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPTestClusterClusterTestSpecificResponseCallback,
-                    void (*)(CHIPTestClusterClusterTestSpecificResponseCallback *)>
-        onSuccess(Platform::New<CHIPTestClusterClusterTestSpecificResponseCallback>(callback),
-                  Platform::Delete<CHIPTestClusterClusterTestSpecificResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPTestClusterClusterTestSpecificResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeRxBeaconRequestCount(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, TestClusterCluster, testStructArgumentRequest)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject a, jobject b, jobject c, jbyteArray d, jstring e,
- jobject f)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportRxBeaconRequestCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::TestCluster::Commands::TestStructArgumentRequest::Type request;
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.arg1 = chip::app::Clusters::TestCluster::Structs::SimpleStruct::Type();
+    err = cppCluster->ReportAttributeRxBeaconRequestCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeRxOtherCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
 
-    std::unique_ptr<CHIPTestClusterClusterBooleanResponseCallback, void (*)(CHIPTestClusterClusterBooleanResponseCallback *)>
-        onSuccess(Platform::New<CHIPTestClusterClusterBooleanResponseCallback>(callback),
-                  Platform::Delete<CHIPTestClusterClusterBooleanResponseCallback>);
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn =
-        chip::Callback::Callback<CHIPTestClusterClusterBooleanResponseCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeRxOtherCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, TestClusterCluster, testUnknownCommand)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportRxOtherCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::TestCluster::Commands::TestUnknownCommand::Type request;
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeRxOtherCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeRxAddressFilteredCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeRxAddressFilteredCount(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeBooleanAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jboolean value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportRxAddressFilteredCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeRxAddressFilteredCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeRxDestAddrFilteredCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -9423,54 +31343,47 @@ JNI_METHOD(void, TestClusterCluster, writeBooleanAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeBoolean(onSuccess->Cancel(), onFailure->Cancel(), static_cast<bool>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeRxDestAddrFilteredCount(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeBitmap8Attribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportRxDestAddrFilteredCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeBitmap8(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeRxDestAddrFilteredCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, TestClusterCluster, writeBitmap16Attribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeRxDuplicatedCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -9485,54 +31398,47 @@ JNI_METHOD(void, TestClusterCluster, writeBitmap16Attribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeBitmap16(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeRxDuplicatedCount(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeBitmap32Attribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportRxDuplicatedCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeBitmap32(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint32_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeRxDuplicatedCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, TestClusterCluster, writeBitmap64Attribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeRxErrNoFrameCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -9547,54 +31453,47 @@ JNI_METHOD(void, TestClusterCluster, writeBitmap64Attribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeBitmap64(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint64_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeRxErrNoFrameCount(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeInt8uAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportRxErrNoFrameCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeInt8u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeRxErrNoFrameCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, TestClusterCluster, writeInt16uAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeRxErrUnknownNeighborCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -9609,23 +31508,47 @@ JNI_METHOD(void, TestClusterCluster, writeInt16uAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeInt16u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeRxErrUnknownNeighborCount(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeInt32uAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportRxErrUnknownNeighborCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeRxErrUnknownNeighborCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeRxErrInvalidSrcAddrCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -9640,23 +31563,47 @@ JNI_METHOD(void, TestClusterCluster, writeInt32uAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeInt32u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint32_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeRxErrInvalidSrcAddrCount(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeInt64uAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportRxErrInvalidSrcAddrCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeRxErrInvalidSrcAddrCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeRxErrSecCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -9671,23 +31618,47 @@ JNI_METHOD(void, TestClusterCluster, writeInt64uAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeInt64u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint64_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeRxErrSecCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeInt8sAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportRxErrSecCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeRxErrSecCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeRxErrFcsCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -9702,23 +31673,47 @@ JNI_METHOD(void, TestClusterCluster, writeInt8sAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeInt8s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeRxErrFcsCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeInt16sAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportRxErrFcsCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeRxErrFcsCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeRxErrOtherCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -9733,54 +31728,47 @@ JNI_METHOD(void, TestClusterCluster, writeInt16sAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeInt16s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeRxErrOtherCount(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeInt32sAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportRxErrOtherCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeInt32s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int32_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeRxErrOtherCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, TestClusterCluster, writeInt64sAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeActiveTimestampAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -9795,54 +31783,47 @@ JNI_METHOD(void, TestClusterCluster, writeInt64sAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeInt64s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int64_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeActiveTimestamp(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeEnum8Attribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportActiveTimestampAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeEnum8(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeActiveTimestamp(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, TestClusterCluster, writeEnum16Attribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribePendingTimestampAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -9857,56 +31838,47 @@ JNI_METHOD(void, TestClusterCluster, writeEnum16Attribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeEnum16(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributePendingTimestamp(onSuccess->Cancel(), onFailure->Cancel(),
+                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeOctetStringAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportPendingTimestampAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    JniByteArray jniArr(env, value);
-    err = cppCluster->WriteAttributeOctetString(onSuccess->Cancel(), onFailure->Cancel(),
-                                                chip::ByteSpan((const uint8_t *) jniArr.data(), jniArr.size()));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributePendingTimestamp(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, TestClusterCluster, writeLongOctetStringAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeDelayAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -9921,25 +31893,47 @@ JNI_METHOD(void, TestClusterCluster, writeLongOctetStringAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    JniByteArray jniArr(env, value);
-    err = cppCluster->WriteAttributeLongOctetString(onSuccess->Cancel(), onFailure->Cancel(),
-                                                    chip::ByteSpan((const uint8_t *) jniArr.data(), jniArr.size()));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeDelay(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                              static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeCharStringAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jstring value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportDelayAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeDelay(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeChannelMaskAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -9954,25 +31948,47 @@ JNI_METHOD(void, TestClusterCluster, writeCharStringAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    JniUtfString valueStr(env, value);
-    err = cppCluster->WriteAttributeCharString(onSuccess->Cancel(), onFailure->Cancel(),
-                                               chip::CharSpan(valueStr.c_str(), strlen(valueStr.c_str())));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeChannelMask(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeLongCharStringAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jstring value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportChannelMaskAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPOctetStringAttributeCallback, void (*)(CHIPOctetStringAttributeCallback *)> onReport(
+        Platform::New<CHIPOctetStringAttributeCallback>(callback, true), Platform::Delete<CHIPOctetStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeChannelMask(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -9987,56 +32003,56 @@ JNI_METHOD(void, TestClusterCluster, writeLongCharStringAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    JniUtfString valueStr(env, value);
-    err = cppCluster->WriteAttributeLongCharString(onSuccess->Cancel(), onFailure->Cancel(),
-                                                   chip::CharSpan(valueStr.c_str(), strlen(valueStr.c_str())));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeEpochUsAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                               = CHIP_NO_ERROR;
+    ThreadNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeEpochUs(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint64_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
+}
+JNI_METHOD(jlong, WakeOnLanCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    WakeOnLanCluster * cppCluster = new WakeOnLanCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
 }
 
-JNI_METHOD(void, TestClusterCluster, writeEpochSAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+JNI_METHOD(void, WakeOnLanCluster, subscribeWakeOnLanMacAddressAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -10051,54 +32067,47 @@ JNI_METHOD(void, TestClusterCluster, writeEpochSAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                = CHIP_NO_ERROR;
+    WakeOnLanCluster * cppCluster = reinterpret_cast<WakeOnLanCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeEpochS(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint32_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeWakeOnLanMacAddress(onSuccess->Cancel(), onFailure->Cancel(),
+                                                            static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeVendorIdAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WakeOnLanCluster, reportWakeOnLanMacAddressAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPCharStringAttributeCallback, void (*)(CHIPCharStringAttributeCallback *)> onReport(
+        Platform::New<CHIPCharStringAttributeCallback>(callback, true), Platform::Delete<CHIPCharStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                = CHIP_NO_ERROR;
+    WakeOnLanCluster * cppCluster = reinterpret_cast<WakeOnLanCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeVendorId(onSuccess->Cancel(), onFailure->Cancel(), static_cast<chip::VendorId>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeWakeOnLanMacAddress(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, TestClusterCluster, writeUnsupportedAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jboolean value)
+JNI_METHOD(void, WakeOnLanCluster, subscribeClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -10113,85 +32122,90 @@ JNI_METHOD(void, TestClusterCluster, writeUnsupportedAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                = CHIP_NO_ERROR;
+    WakeOnLanCluster * cppCluster = reinterpret_cast<WakeOnLanCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeUnsupported(onSuccess->Cancel(), onFailure->Cancel(), static_cast<bool>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeNullableBooleanAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jboolean value)
+JNI_METHOD(void, WakeOnLanCluster, reportClusterRevisionAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                = CHIP_NO_ERROR;
+    WakeOnLanCluster * cppCluster = reinterpret_cast<WakeOnLanCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeNullableBoolean(onSuccess->Cancel(), onFailure->Cancel(), static_cast<bool>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
+}
+JNI_METHOD(jlong, WiFiNetworkDiagnosticsCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    WiFiNetworkDiagnosticsCluster * cppCluster = new WiFiNetworkDiagnosticsCluster();
+
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
 }
 
-JNI_METHOD(void, TestClusterCluster, writeNullableBitmap8Attribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, resetCounts)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster;
+
+    chip::app::Clusters::WiFiNetworkDiagnostics::Commands::ResetCounts::Type request;
+
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeNullableBitmap8(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
 
     onSuccess.release();
     onFailure.release();
 }
-
-JNI_METHOD(void, TestClusterCluster, writeNullableBitmap16Attribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, subscribeBssidAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -10206,54 +32220,47 @@ JNI_METHOD(void, TestClusterCluster, writeNullableBitmap16Attribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeNullableBitmap16(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeBssid(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                              static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeNullableBitmap32Attribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, reportBssidAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPOctetStringAttributeCallback, void (*)(CHIPOctetStringAttributeCallback *)> onReport(
+        Platform::New<CHIPOctetStringAttributeCallback>(callback, true), Platform::Delete<CHIPOctetStringAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeNullableBitmap32(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint32_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeBssid(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, TestClusterCluster, writeNullableBitmap64Attribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, subscribeSecurityTypeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -10268,54 +32275,47 @@ JNI_METHOD(void, TestClusterCluster, writeNullableBitmap64Attribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeNullableBitmap64(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint64_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeSecurityType(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeNullableInt8uAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, reportSecurityTypeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeNullableInt8u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeSecurityType(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, TestClusterCluster, writeNullableInt16uAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, subscribeWiFiVersionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -10330,54 +32330,47 @@ JNI_METHOD(void, TestClusterCluster, writeNullableInt16uAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeNullableInt16u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeWiFiVersion(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                    static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeNullableInt32uAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, reportWiFiVersionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeNullableInt32u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint32_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeWiFiVersion(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, TestClusterCluster, writeNullableInt64uAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, subscribeChannelNumberAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -10392,54 +32385,47 @@ JNI_METHOD(void, TestClusterCluster, writeNullableInt64uAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeNullableInt64u(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint64_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeChannelNumber(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeNullableInt8sAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, reportChannelNumberAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeNullableInt8s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeChannelNumber(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, TestClusterCluster, writeNullableInt16sAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, subscribeRssiAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -10454,54 +32440,46 @@ JNI_METHOD(void, TestClusterCluster, writeNullableInt16sAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeNullableInt16s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeRssi(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                             static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeNullableInt32sAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, reportRssiAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPInt8sAttributeCallback, void (*)(CHIPInt8sAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8sAttributeCallback>(callback, true), Platform::Delete<CHIPInt8sAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeNullableInt32s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int32_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeRssi(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, TestClusterCluster, writeNullableInt64sAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jlong value)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, subscribeBeaconLostCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -10516,54 +32494,47 @@ JNI_METHOD(void, TestClusterCluster, writeNullableInt64sAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeNullableInt64s(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int64_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeBeaconLostCount(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeNullableEnum8Attribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, reportBeaconLostCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeNullableEnum8(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeBeaconLostCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, TestClusterCluster, writeNullableEnum16Attribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, subscribeBeaconRxCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -10578,23 +32549,47 @@ JNI_METHOD(void, TestClusterCluster, writeNullableEnum16Attribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeNullableEnum16(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeBeaconRxCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                      static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeNullableOctetStringAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jbyteArray value)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, reportBeaconRxCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeBeaconRxCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, subscribePacketMulticastRxCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -10609,25 +32604,47 @@ JNI_METHOD(void, TestClusterCluster, writeNullableOctetStringAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    JniByteArray jniArr(env, value);
-    err = cppCluster->WriteAttributeNullableOctetString(onSuccess->Cancel(), onFailure->Cancel(),
-                                                        chip::ByteSpan((const uint8_t *) jniArr.data(), jniArr.size()));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributePacketMulticastRxCount(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, TestClusterCluster, writeNullableCharStringAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jstring value)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, reportPacketMulticastRxCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributePacketMulticastRxCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, subscribePacketMulticastTxCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -10642,228 +32659,266 @@ JNI_METHOD(void, TestClusterCluster, writeNullableCharStringAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                  = CHIP_NO_ERROR;
-    TestClusterCluster * cppCluster = reinterpret_cast<TestClusterCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    JniUtfString valueStr(env, value);
-    err = cppCluster->WriteAttributeNullableCharString(onSuccess->Cancel(), onFailure->Cancel(),
-                                                       chip::CharSpan(valueStr.c_str(), strlen(valueStr.c_str())));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributePacketMulticastTxCount(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, ThermostatCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    ThermostatCluster * cppCluster = new ThermostatCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
 
-JNI_METHOD(void, ThermostatCluster, clearWeeklySchedule)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, reportPacketMulticastTxCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ThermostatCluster * cppCluster;
-
-    chip::app::Clusters::Thermostat::Commands::ClearWeeklySchedule::Type request;
-
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributePacketMulticastTxCount(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-JNI_METHOD(void, ThermostatCluster, getRelayStatusLog)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, subscribePacketUnicastRxCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ThermostatCluster * cppCluster;
-
-    chip::app::Clusters::Thermostat::Commands::GetRelayStatusLog::Type request;
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributePacketUnicastRxCount(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ThermostatCluster, getWeeklySchedule)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject daysToReturn, jobject modeToReturn)
+
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, reportPacketUnicastRxCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ThermostatCluster * cppCluster;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::Thermostat::Commands::GetWeeklySchedule::Type request;
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.daysToReturn =
-        static_cast<decltype(request.daysToReturn)>(chip::JniReferences::GetInstance().IntegerToPrimitive(daysToReturn));
-    request.modeToReturn =
-        static_cast<decltype(request.modeToReturn)>(chip::JniReferences::GetInstance().IntegerToPrimitive(modeToReturn));
+    err = cppCluster->ReportAttributePacketUnicastRxCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, subscribePacketUnicastTxCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributePacketUnicastTxCount(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ThermostatCluster, setWeeklySchedule)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject numberOfTransitionsForSequence,
- jobject dayOfWeekForSequence, jobject modeForSequence, jobject payload)
+
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, reportPacketUnicastTxCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ThermostatCluster * cppCluster;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::Thermostat::Commands::SetWeeklySchedule::Type request;
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.numberOfTransitionsForSequence = static_cast<decltype(request.numberOfTransitionsForSequence)>(
-        chip::JniReferences::GetInstance().IntegerToPrimitive(numberOfTransitionsForSequence));
-    request.dayOfWeekForSequence = static_cast<decltype(request.dayOfWeekForSequence)>(
-        chip::JniReferences::GetInstance().IntegerToPrimitive(dayOfWeekForSequence));
-    request.modeForSequence =
-        static_cast<decltype(request.modeForSequence)>(chip::JniReferences::GetInstance().IntegerToPrimitive(modeForSequence));
-    request.payload = chip::app::DataModel::List<const uint8_t>();
+    err = cppCluster->ReportAttributePacketUnicastTxCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, subscribeCurrentMaxRateAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeCurrentMaxRate(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, ThermostatCluster, setpointRaiseLower)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject mode, jobject amount)
+
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, reportCurrentMaxRateAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ThermostatCluster * cppCluster;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::Thermostat::Commands::SetpointRaiseLower::Type request;
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.mode   = static_cast<decltype(request.mode)>(chip::JniReferences::GetInstance().IntegerToPrimitive(mode));
-    request.amount = static_cast<decltype(request.amount)>(chip::JniReferences::GetInstance().IntegerToPrimitive(amount));
+    err = cppCluster->ReportAttributeCurrentMaxRate(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, subscribeOverrunCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeOverrunCount(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, ThermostatCluster, subscribeLocalTemperatureAttribute)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, reportOverrunCountAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt64uAttributeCallback, void (*)(CHIPInt64uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt64uAttributeCallback>(callback, true), Platform::Delete<CHIPInt64uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeOverrunCount(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, subscribeClusterRevisionAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -10879,14 +32934,14 @@ JNI_METHOD(void, ThermostatCluster, subscribeLocalTemperatureAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                 = CHIP_NO_ERROR;
-    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeLocalTemperature(onSuccess->Cancel(), onFailure->Cancel(),
-                                                         static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -10895,248 +32950,303 @@ JNI_METHOD(void, ThermostatCluster, subscribeLocalTemperatureAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, ThermostatCluster, reportLocalTemperatureAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt16sAttributeCallback, void (*)(CHIPInt16sAttributeCallback *)> onReport(
-        Platform::New<CHIPInt16sAttributeCallback>(callback, true), Platform::Delete<CHIPInt16sAttributeCallback>);
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                 = CHIP_NO_ERROR;
-    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    CHIP_ERROR err                             = CHIP_NO_ERROR;
+    WiFiNetworkDiagnosticsCluster * cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeLocalTemperature(onReport->Cancel());
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
+JNI_METHOD(jlong, WindowCoveringCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+{
+    chip::DeviceLayer::StackLock lock;
+    WindowCoveringCluster * cppCluster = new WindowCoveringCluster();
 
-JNI_METHOD(void, ThermostatCluster, writeOccupiedCoolingSetpointAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
+    return reinterpret_cast<jlong>(cppCluster);
+}
+
+JNI_METHOD(void, WindowCoveringCluster, downOrClose)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster;
+
+    chip::app::Clusters::WindowCovering::Commands::DownOrClose::Type request;
+
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                 = CHIP_NO_ERROR;
-    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeOccupiedCoolingSetpoint(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
 
     onSuccess.release();
     onFailure.release();
 }
-
-JNI_METHOD(void, ThermostatCluster, writeOccupiedHeatingSetpointAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WindowCoveringCluster, goToLiftPercentage)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject liftPercentageValue, jobject liftPercent100thsValue)
 {
     chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster;
+
+    chip::app::Clusters::WindowCovering::Commands::GoToLiftPercentage::Type request;
+
+    request.liftPercentageValue = static_cast<decltype(request.liftPercentageValue)>(
+        chip::JniReferences::GetInstance().IntegerToPrimitive(liftPercentageValue));
+    request.liftPercent100thsValue = static_cast<decltype(request.liftPercent100thsValue)>(
+        chip::JniReferences::GetInstance().IntegerToPrimitive(liftPercent100thsValue));
+
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                 = CHIP_NO_ERROR;
-    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeOccupiedHeatingSetpoint(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
 
     onSuccess.release();
     onFailure.release();
 }
-
-JNI_METHOD(void, ThermostatCluster, writeMinHeatSetpointLimitAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WindowCoveringCluster, goToLiftValue)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject liftValue)
 {
     chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster;
+
+    chip::app::Clusters::WindowCovering::Commands::GoToLiftValue::Type request;
+
+    request.liftValue = static_cast<decltype(request.liftValue)>(chip::JniReferences::GetInstance().IntegerToPrimitive(liftValue));
+
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                 = CHIP_NO_ERROR;
-    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeMinHeatSetpointLimit(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
 
     onSuccess.release();
     onFailure.release();
 }
-
-JNI_METHOD(void, ThermostatCluster, writeMaxHeatSetpointLimitAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WindowCoveringCluster, goToTiltPercentage)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject tiltPercentageValue, jobject tiltPercent100thsValue)
 {
     chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster;
+
+    chip::app::Clusters::WindowCovering::Commands::GoToTiltPercentage::Type request;
+
+    request.tiltPercentageValue = static_cast<decltype(request.tiltPercentageValue)>(
+        chip::JniReferences::GetInstance().IntegerToPrimitive(tiltPercentageValue));
+    request.tiltPercent100thsValue = static_cast<decltype(request.tiltPercent100thsValue)>(
+        chip::JniReferences::GetInstance().IntegerToPrimitive(tiltPercent100thsValue));
+
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                 = CHIP_NO_ERROR;
-    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeMaxHeatSetpointLimit(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
 
     onSuccess.release();
     onFailure.release();
 }
-
-JNI_METHOD(void, ThermostatCluster, writeMinCoolSetpointLimitAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WindowCoveringCluster, goToTiltValue)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject tiltValue)
 {
     chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster;
+
+    chip::app::Clusters::WindowCovering::Commands::GoToTiltValue::Type request;
+
+    request.tiltValue = static_cast<decltype(request.tiltValue)>(chip::JniReferences::GetInstance().IntegerToPrimitive(tiltValue));
+
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                 = CHIP_NO_ERROR;
-    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeMinCoolSetpointLimit(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
 
     onSuccess.release();
     onFailure.release();
 }
-
-JNI_METHOD(void, ThermostatCluster, writeMaxCoolSetpointLimitAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WindowCoveringCluster, stopMotion)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster;
+
+    chip::app::Clusters::WindowCovering::Commands::StopMotion::Type request;
+
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                 = CHIP_NO_ERROR;
-    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeMaxCoolSetpointLimit(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int16_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
 
     onSuccess.release();
     onFailure.release();
 }
-
-JNI_METHOD(void, ThermostatCluster, writeMinSetpointDeadBandAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WindowCoveringCluster, upOrOpen)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
+    CHIP_ERROR err = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster;
+
+    chip::app::Clusters::WindowCovering::Commands::UpOrOpen::Type request;
+
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                 = CHIP_NO_ERROR;
-    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeMinSetpointDeadBand(onSuccess->Cancel(), onFailure->Cancel(), static_cast<int8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
+    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+
+    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
+                                                                                       CHIP_ERROR_INCORRECT_STATE));
 
     onSuccess.release();
     onFailure.release();
 }
-
-JNI_METHOD(void, ThermostatCluster, writeControlSequenceOfOperationAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WindowCoveringCluster, subscribeTypeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -11151,24 +33261,46 @@ JNI_METHOD(void, ThermostatCluster, writeControlSequenceOfOperationAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                 = CHIP_NO_ERROR;
-    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err =
-        cppCluster->WriteAttributeControlSequenceOfOperation(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeType(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                             static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, ThermostatCluster, writeSystemModeAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WindowCoveringCluster, reportTypeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeType(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, WindowCoveringCluster, subscribeCurrentPositionLiftAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -11183,32 +33315,47 @@ JNI_METHOD(void, ThermostatCluster, writeSystemModeAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err                 = CHIP_NO_ERROR;
-    ThermostatCluster * cppCluster = reinterpret_cast<ThermostatCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeSystemMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeCurrentPositionLift(onSuccess->Cancel(), onFailure->Cancel(),
+                                                            static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, ThermostatUserInterfaceConfigurationCluster, initWithDevice)
-(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+
+JNI_METHOD(void, WindowCoveringCluster, reportCurrentPositionLiftAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    ThermostatUserInterfaceConfigurationCluster * cppCluster = new ThermostatUserInterfaceConfigurationCluster();
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-JNI_METHOD(void, ThermostatUserInterfaceConfigurationCluster, writeTemperatureDisplayModeAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+    err = cppCluster->ReportAttributeCurrentPositionLift(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, WindowCoveringCluster, subscribeCurrentPositionTiltAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -11223,56 +33370,47 @@ JNI_METHOD(void, ThermostatUserInterfaceConfigurationCluster, writeTemperatureDi
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ThermostatUserInterfaceConfigurationCluster * cppCluster =
-        reinterpret_cast<ThermostatUserInterfaceConfigurationCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeTemperatureDisplayMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeCurrentPositionTilt(onSuccess->Cancel(), onFailure->Cancel(),
+                                                            static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, ThermostatUserInterfaceConfigurationCluster, writeKeypadLockoutAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WindowCoveringCluster, reportCurrentPositionTiltAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
-
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onFailure.get() != nullptr,
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ThermostatUserInterfaceConfigurationCluster * cppCluster =
-        reinterpret_cast<ThermostatUserInterfaceConfigurationCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeKeypadLockout(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->ReportAttributeCurrentPositionTilt(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, ThermostatUserInterfaceConfigurationCluster, writeScheduleProgrammingVisibilityAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WindowCoveringCluster, subscribeConfigStatusAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -11287,393 +33425,430 @@ JNI_METHOD(void, ThermostatUserInterfaceConfigurationCluster, writeScheduleProgr
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ThermostatUserInterfaceConfigurationCluster * cppCluster =
-        reinterpret_cast<ThermostatUserInterfaceConfigurationCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeScheduleProgrammingVisibility(onSuccess->Cancel(), onFailure->Cancel(),
-                                                                  static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeConfigStatus(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, ThreadNetworkDiagnosticsCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
+
+JNI_METHOD(void, WindowCoveringCluster, reportConfigStatusAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    ThreadNetworkDiagnosticsCluster * cppCluster = new ThreadNetworkDiagnosticsCluster();
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-JNI_METHOD(void, ThreadNetworkDiagnosticsCluster, resetCounts)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+    err = cppCluster->ReportAttributeConfigStatus(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, WindowCoveringCluster, subscribeCurrentPositionLiftPercentageAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    ThreadNetworkDiagnosticsCluster * cppCluster;
-
-    chip::app::Clusters::ThreadNetworkDiagnostics::Commands::ResetCounts::Type request;
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<ThreadNetworkDiagnosticsCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeCurrentPositionLiftPercentage(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(jlong, WakeOnLanCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    WakeOnLanCluster * cppCluster = new WakeOnLanCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
-
-JNI_METHOD(jlong, WiFiNetworkDiagnosticsCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    WiFiNetworkDiagnosticsCluster * cppCluster = new WiFiNetworkDiagnosticsCluster();
-
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
-}
 
-JNI_METHOD(void, WiFiNetworkDiagnosticsCluster, resetCounts)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, WindowCoveringCluster, reportCurrentPositionLiftPercentageAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    WiFiNetworkDiagnosticsCluster * cppCluster;
-
-    chip::app::Clusters::WiFiNetworkDiagnostics::Commands::ResetCounts::Type request;
-
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<WiFiNetworkDiagnosticsCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
-
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
-    VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    onSuccess.release();
-    onFailure.release();
-}
-JNI_METHOD(jlong, WindowCoveringCluster, initWithDevice)(JNIEnv * env, jobject self, jlong devicePtr, jint endpointId)
-{
-    chip::DeviceLayer::StackLock lock;
-    WindowCoveringCluster * cppCluster = new WindowCoveringCluster();
+    err = cppCluster->ReportAttributeCurrentPositionLiftPercentage(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    cppCluster->Associate(reinterpret_cast<DeviceProxy *>(devicePtr), endpointId);
-    return reinterpret_cast<jlong>(cppCluster);
+    onReport.release();
 }
-
-JNI_METHOD(void, WindowCoveringCluster, downOrClose)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, WindowCoveringCluster, subscribeCurrentPositionTiltPercentageAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    WindowCoveringCluster * cppCluster;
-
-    chip::app::Clusters::WindowCovering::Commands::DownOrClose::Type request;
-
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeCurrentPositionTiltPercentage(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, WindowCoveringCluster, goToLiftPercentage)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject liftPercentageValue, jobject liftPercent100thsValue)
+
+JNI_METHOD(void, WindowCoveringCluster, reportCurrentPositionTiltPercentageAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    WindowCoveringCluster * cppCluster;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::WindowCovering::Commands::GoToLiftPercentage::Type request;
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.liftPercentageValue = static_cast<decltype(request.liftPercentageValue)>(
-        chip::JniReferences::GetInstance().IntegerToPrimitive(liftPercentageValue));
-    request.liftPercent100thsValue = static_cast<decltype(request.liftPercent100thsValue)>(
-        chip::JniReferences::GetInstance().IntegerToPrimitive(liftPercent100thsValue));
+    err = cppCluster->ReportAttributeCurrentPositionTiltPercentage(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, WindowCoveringCluster, subscribeOperationalStatusAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeOperationalStatus(onSuccess->Cancel(), onFailure->Cancel(),
+                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, WindowCoveringCluster, goToLiftValue)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject liftValue)
+
+JNI_METHOD(void, WindowCoveringCluster, reportOperationalStatusAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    WindowCoveringCluster * cppCluster;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::WindowCovering::Commands::GoToLiftValue::Type request;
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.liftValue = static_cast<decltype(request.liftValue)>(chip::JniReferences::GetInstance().IntegerToPrimitive(liftValue));
+    err = cppCluster->ReportAttributeOperationalStatus(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, WindowCoveringCluster, subscribeTargetPositionLiftPercent100thsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeTargetPositionLiftPercent100ths(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, WindowCoveringCluster, goToTiltPercentage)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject tiltPercentageValue, jobject tiltPercent100thsValue)
+
+JNI_METHOD(void, WindowCoveringCluster, reportTargetPositionLiftPercent100thsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    WindowCoveringCluster * cppCluster;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::WindowCovering::Commands::GoToTiltPercentage::Type request;
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.tiltPercentageValue = static_cast<decltype(request.tiltPercentageValue)>(
-        chip::JniReferences::GetInstance().IntegerToPrimitive(tiltPercentageValue));
-    request.tiltPercent100thsValue = static_cast<decltype(request.tiltPercent100thsValue)>(
-        chip::JniReferences::GetInstance().IntegerToPrimitive(tiltPercent100thsValue));
+    err = cppCluster->ReportAttributeTargetPositionLiftPercent100ths(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, WindowCoveringCluster, subscribeTargetPositionTiltPercent100thsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeTargetPositionTiltPercent100ths(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, WindowCoveringCluster, goToTiltValue)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jobject tiltValue)
+
+JNI_METHOD(void, WindowCoveringCluster, reportTargetPositionTiltPercent100thsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    WindowCoveringCluster * cppCluster;
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::WindowCovering::Commands::GoToTiltValue::Type request;
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    request.tiltValue = static_cast<decltype(request.tiltValue)>(chip::JniReferences::GetInstance().IntegerToPrimitive(tiltValue));
+    err = cppCluster->ReportAttributeTargetPositionTiltPercent100ths(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, WindowCoveringCluster, subscribeEndProductTypeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeEndProductType(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                       static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, WindowCoveringCluster, stopMotion)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+
+JNI_METHOD(void, WindowCoveringCluster, reportEndProductTypeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    WindowCoveringCluster * cppCluster;
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    chip::app::Clusters::WindowCovering::Commands::StopMotion::Type request;
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeEndProductType(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
+    onReport.release();
+}
+JNI_METHOD(void, WindowCoveringCluster, subscribeCurrentPositionLiftPercent100thsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
+{
+    chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
         Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
     std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
         Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
     VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->SubscribeAttributeCurrentPositionLiftPercent100ths(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
-JNI_METHOD(void, WindowCoveringCluster, upOrOpen)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+
+JNI_METHOD(void, WindowCoveringCluster, reportCurrentPositionLiftPercent100thsAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    CHIP_ERROR err = CHIP_NO_ERROR;
-    WindowCoveringCluster * cppCluster;
-
-    chip::app::Clusters::WindowCovering::Commands::UpOrOpen::Type request;
-
-    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
-        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
-    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
-        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
-    VerifyOrReturn(onSuccess.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
-    VerifyOrReturn(onFailure.get() != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error creating native callback", CHIP_ERROR_NO_MEMORY));
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
 
-    cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
     VerifyOrReturn(cppCluster != nullptr,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
-                       env, callback, "Error getting native cluster", CHIP_ERROR_INCORRECT_STATE));
-
-    auto successFn = chip::Callback::Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(onSuccess->Cancel());
-    auto failureFn = chip::Callback::Callback<CHIPDefaultFailureCallbackType>::FromCancelable(onFailure->Cancel());
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->InvokeCommand(request, onSuccess->mContext, successFn->mCall, failureFn->mCall);
+    err = cppCluster->ReportAttributeCurrentPositionLiftPercent100ths(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
-                   AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error invoking command",
-                                                                                       CHIP_ERROR_INCORRECT_STATE));
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
 
-    onSuccess.release();
-    onFailure.release();
+    onReport.release();
 }
-
-JNI_METHOD(void, WindowCoveringCluster, subscribeCurrentPositionLiftPercentageAttribute)
+JNI_METHOD(void, WindowCoveringCluster, subscribeCurrentPositionTiltPercent100thsAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -11695,7 +33870,7 @@ JNI_METHOD(void, WindowCoveringCluster, subscribeCurrentPositionLiftPercentageAt
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeCurrentPositionLiftPercentage(
+    err = cppCluster->SubscribeAttributeCurrentPositionTiltPercent100ths(
         onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
@@ -11705,12 +33880,12 @@ JNI_METHOD(void, WindowCoveringCluster, subscribeCurrentPositionLiftPercentageAt
     onFailure.release();
 }
 
-JNI_METHOD(void, WindowCoveringCluster, reportCurrentPositionLiftPercentageAttribute)
+JNI_METHOD(void, WindowCoveringCluster, reportCurrentPositionTiltPercent100thsAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
-        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
@@ -11721,15 +33896,14 @@ JNI_METHOD(void, WindowCoveringCluster, reportCurrentPositionLiftPercentageAttri
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeCurrentPositionLiftPercentage(onReport->Cancel());
+    err = cppCluster->ReportAttributeCurrentPositionTiltPercent100ths(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-
-JNI_METHOD(void, WindowCoveringCluster, subscribeCurrentPositionTiltPercentageAttribute)
+JNI_METHOD(void, WindowCoveringCluster, subscribeInstalledOpenLimitLiftAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -11751,7 +33925,7 @@ JNI_METHOD(void, WindowCoveringCluster, subscribeCurrentPositionTiltPercentageAt
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeCurrentPositionTiltPercentage(
+    err = cppCluster->SubscribeAttributeInstalledOpenLimitLift(
         onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
@@ -11761,12 +33935,12 @@ JNI_METHOD(void, WindowCoveringCluster, subscribeCurrentPositionTiltPercentageAt
     onFailure.release();
 }
 
-JNI_METHOD(void, WindowCoveringCluster, reportCurrentPositionTiltPercentageAttribute)
+JNI_METHOD(void, WindowCoveringCluster, reportInstalledOpenLimitLiftAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
-        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
@@ -11777,15 +33951,14 @@ JNI_METHOD(void, WindowCoveringCluster, reportCurrentPositionTiltPercentageAttri
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeCurrentPositionTiltPercentage(onReport->Cancel());
+    err = cppCluster->ReportAttributeInstalledOpenLimitLift(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-
-JNI_METHOD(void, WindowCoveringCluster, subscribeOperationalStatusAttribute)
+JNI_METHOD(void, WindowCoveringCluster, subscribeInstalledClosedLimitLiftAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -11807,8 +33980,8 @@ JNI_METHOD(void, WindowCoveringCluster, subscribeOperationalStatusAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeOperationalStatus(onSuccess->Cancel(), onFailure->Cancel(),
-                                                          static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeInstalledClosedLimitLift(
+        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -11817,12 +33990,12 @@ JNI_METHOD(void, WindowCoveringCluster, subscribeOperationalStatusAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, WindowCoveringCluster, reportOperationalStatusAttribute)
+JNI_METHOD(void, WindowCoveringCluster, reportInstalledClosedLimitLiftAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
-        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
+    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
@@ -11833,15 +34006,14 @@ JNI_METHOD(void, WindowCoveringCluster, reportOperationalStatusAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeOperationalStatus(onReport->Cancel());
+    err = cppCluster->ReportAttributeInstalledClosedLimitLift(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-
-JNI_METHOD(void, WindowCoveringCluster, subscribeTargetPositionLiftPercent100thsAttribute)
+JNI_METHOD(void, WindowCoveringCluster, subscribeInstalledOpenLimitTiltAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -11863,7 +34035,7 @@ JNI_METHOD(void, WindowCoveringCluster, subscribeTargetPositionLiftPercent100ths
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeTargetPositionLiftPercent100ths(
+    err = cppCluster->SubscribeAttributeInstalledOpenLimitTilt(
         onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
@@ -11873,7 +34045,7 @@ JNI_METHOD(void, WindowCoveringCluster, subscribeTargetPositionLiftPercent100ths
     onFailure.release();
 }
 
-JNI_METHOD(void, WindowCoveringCluster, reportTargetPositionLiftPercent100thsAttribute)
+JNI_METHOD(void, WindowCoveringCluster, reportInstalledOpenLimitTiltAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
@@ -11889,15 +34061,14 @@ JNI_METHOD(void, WindowCoveringCluster, reportTargetPositionLiftPercent100thsAtt
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeTargetPositionLiftPercent100ths(onReport->Cancel());
+    err = cppCluster->ReportAttributeInstalledOpenLimitTilt(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-
-JNI_METHOD(void, WindowCoveringCluster, subscribeTargetPositionTiltPercent100thsAttribute)
+JNI_METHOD(void, WindowCoveringCluster, subscribeInstalledClosedLimitTiltAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -11919,7 +34090,7 @@ JNI_METHOD(void, WindowCoveringCluster, subscribeTargetPositionTiltPercent100ths
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeTargetPositionTiltPercent100ths(
+    err = cppCluster->SubscribeAttributeInstalledClosedLimitTilt(
         onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
@@ -11929,7 +34100,7 @@ JNI_METHOD(void, WindowCoveringCluster, subscribeTargetPositionTiltPercent100ths
     onFailure.release();
 }
 
-JNI_METHOD(void, WindowCoveringCluster, reportTargetPositionTiltPercent100thsAttribute)
+JNI_METHOD(void, WindowCoveringCluster, reportInstalledClosedLimitTiltAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
@@ -11945,7 +34116,7 @@ JNI_METHOD(void, WindowCoveringCluster, reportTargetPositionTiltPercent100thsAtt
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeTargetPositionTiltPercent100ths(onReport->Cancel());
+    err = cppCluster->ReportAttributeInstalledClosedLimitTilt(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
@@ -11953,7 +34124,37 @@ JNI_METHOD(void, WindowCoveringCluster, reportTargetPositionTiltPercent100thsAtt
     onReport.release();
 }
 
-JNI_METHOD(void, WindowCoveringCluster, subscribeCurrentPositionLiftPercent100thsAttribute)
+JNI_METHOD(void, WindowCoveringCluster, writeModeAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
+        Platform::New<CHIPDefaultSuccessCallback>(callback), Platform::Delete<CHIPDefaultSuccessCallback>);
+    VerifyOrReturn(onSuccess.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native success callback", CHIP_ERROR_NO_MEMORY));
+
+    std::unique_ptr<CHIPDefaultFailureCallback, void (*)(CHIPDefaultFailureCallback *)> onFailure(
+        Platform::New<CHIPDefaultFailureCallback>(callback), Platform::Delete<CHIPDefaultFailureCallback>);
+    VerifyOrReturn(onFailure.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native failure callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->WriteAttributeMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
+    VerifyOrReturn(
+        err == CHIP_NO_ERROR,
+        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+
+    onSuccess.release();
+    onFailure.release();
+}
+JNI_METHOD(void, WindowCoveringCluster, subscribeModeAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -11975,8 +34176,8 @@ JNI_METHOD(void, WindowCoveringCluster, subscribeCurrentPositionLiftPercent100th
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeCurrentPositionLiftPercent100ths(
-        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                             static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -11985,12 +34186,11 @@ JNI_METHOD(void, WindowCoveringCluster, subscribeCurrentPositionLiftPercent100th
     onFailure.release();
 }
 
-JNI_METHOD(void, WindowCoveringCluster, reportCurrentPositionLiftPercent100thsAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, WindowCoveringCluster, reportModeAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
-    std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
-        Platform::New<CHIPInt16uAttributeCallback>(callback, true), Platform::Delete<CHIPInt16uAttributeCallback>);
+    std::unique_ptr<CHIPInt8uAttributeCallback, void (*)(CHIPInt8uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt8uAttributeCallback>(callback, true), Platform::Delete<CHIPInt8uAttributeCallback>);
     VerifyOrReturn(onReport.get() != nullptr,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
@@ -12001,15 +34201,14 @@ JNI_METHOD(void, WindowCoveringCluster, reportCurrentPositionLiftPercent100thsAt
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeCurrentPositionLiftPercent100ths(onReport->Cancel());
+    err = cppCluster->ReportAttributeMode(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-
-JNI_METHOD(void, WindowCoveringCluster, subscribeCurrentPositionTiltPercent100thsAttribute)
+JNI_METHOD(void, WindowCoveringCluster, subscribeSafetyStatusAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -12031,8 +34230,8 @@ JNI_METHOD(void, WindowCoveringCluster, subscribeCurrentPositionTiltPercent100th
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeCurrentPositionTiltPercent100ths(
-        onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeSafetyStatus(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                     static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -12041,8 +34240,7 @@ JNI_METHOD(void, WindowCoveringCluster, subscribeCurrentPositionTiltPercent100th
     onFailure.release();
 }
 
-JNI_METHOD(void, WindowCoveringCluster, reportCurrentPositionTiltPercent100thsAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, WindowCoveringCluster, reportSafetyStatusAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
@@ -12057,16 +34255,15 @@ JNI_METHOD(void, WindowCoveringCluster, reportCurrentPositionTiltPercent100thsAt
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeCurrentPositionTiltPercent100ths(onReport->Cancel());
+    err = cppCluster->ReportAttributeSafetyStatus(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
 
     onReport.release();
 }
-
-JNI_METHOD(void, WindowCoveringCluster, writeModeAttribute)
-(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint value)
+JNI_METHOD(void, WindowCoveringCluster, subscribeFeatureMapAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPDefaultSuccessCallback, void (*)(CHIPDefaultSuccessCallback *)> onSuccess(
@@ -12087,16 +34284,39 @@ JNI_METHOD(void, WindowCoveringCluster, writeModeAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->WriteAttributeMode(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint8_t>(value));
-    VerifyOrReturn(
-        err == CHIP_NO_ERROR,
-        chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(env, callback, "Error writing attribute", err));
+    err = cppCluster->SubscribeAttributeFeatureMap(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
+                                                   static_cast<uint16_t>(maxInterval));
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error subscribing to attribute", err));
 
     onSuccess.release();
     onFailure.release();
 }
 
-JNI_METHOD(void, WindowCoveringCluster, subscribeSafetyStatusAttribute)
+JNI_METHOD(void, WindowCoveringCluster, reportFeatureMapAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+{
+    chip::DeviceLayer::StackLock lock;
+    std::unique_ptr<CHIPInt32uAttributeCallback, void (*)(CHIPInt32uAttributeCallback *)> onReport(
+        Platform::New<CHIPInt32uAttributeCallback>(callback, true), Platform::Delete<CHIPInt32uAttributeCallback>);
+    VerifyOrReturn(onReport.get() != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error creating native report callback", CHIP_ERROR_NO_MEMORY));
+
+    CHIP_ERROR err                     = CHIP_NO_ERROR;
+    WindowCoveringCluster * cppCluster = reinterpret_cast<WindowCoveringCluster *>(clusterPtr);
+    VerifyOrReturn(cppCluster != nullptr,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
+
+    err = cppCluster->ReportAttributeFeatureMap(onReport->Cancel());
+    VerifyOrReturn(err == CHIP_NO_ERROR,
+                   chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
+                       env, callback, "Error registering for attribute reporting", err));
+
+    onReport.release();
+}
+JNI_METHOD(void, WindowCoveringCluster, subscribeClusterRevisionAttribute)
 (JNIEnv * env, jobject self, jlong clusterPtr, jobject callback, jint minInterval, jint maxInterval)
 {
     chip::DeviceLayer::StackLock lock;
@@ -12118,8 +34338,8 @@ JNI_METHOD(void, WindowCoveringCluster, subscribeSafetyStatusAttribute)
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->SubscribeAttributeSafetyStatus(onSuccess->Cancel(), onFailure->Cancel(), static_cast<uint16_t>(minInterval),
-                                                     static_cast<uint16_t>(maxInterval));
+    err = cppCluster->SubscribeAttributeClusterRevision(onSuccess->Cancel(), onFailure->Cancel(),
+                                                        static_cast<uint16_t>(minInterval), static_cast<uint16_t>(maxInterval));
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error subscribing to attribute", err));
@@ -12128,7 +34348,8 @@ JNI_METHOD(void, WindowCoveringCluster, subscribeSafetyStatusAttribute)
     onFailure.release();
 }
 
-JNI_METHOD(void, WindowCoveringCluster, reportSafetyStatusAttribute)(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
+JNI_METHOD(void, WindowCoveringCluster, reportClusterRevisionAttribute)
+(JNIEnv * env, jobject self, jlong clusterPtr, jobject callback)
 {
     chip::DeviceLayer::StackLock lock;
     std::unique_ptr<CHIPInt16uAttributeCallback, void (*)(CHIPInt16uAttributeCallback *)> onReport(
@@ -12143,7 +34364,7 @@ JNI_METHOD(void, WindowCoveringCluster, reportSafetyStatusAttribute)(JNIEnv * en
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Could not get native cluster", CHIP_ERROR_INCORRECT_STATE));
 
-    err = cppCluster->ReportAttributeSafetyStatus(onReport->Cancel());
+    err = cppCluster->ReportAttributeClusterRevision(onReport->Cancel());
     VerifyOrReturn(err == CHIP_NO_ERROR,
                    chip::AndroidClusterExceptions::GetInstance().ReturnIllegalStateException(
                        env, callback, "Error registering for attribute reporting", err));
diff --git a/src/controller/java/zap-generated/chip/devicecontroller/ChipClusters.java b/src/controller/java/zap-generated/chip/devicecontroller/ChipClusters.java
index 0b939cfa26da9a..45c1d53fad8a94 100644
--- a/src/controller/java/zap-generated/chip/devicecontroller/ChipClusters.java
+++ b/src/controller/java/zap-generated/chip/devicecontroller/ChipClusters.java
@@ -126,8 +126,23 @@ public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class AdministratorCommissioningCluster extends BaseChipCluster {
@@ -189,8 +204,23 @@ public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class ApplicationBasicCluster extends BaseChipCluster {
@@ -216,57 +246,177 @@ public void readVendorNameAttribute(CharStringAttributeCallback callback) {
       readVendorNameAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeVendorNameAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeVendorNameAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportVendorNameAttribute(CharStringAttributeCallback callback) {
+      reportVendorNameAttribute(chipClusterPtr, callback);
+    }
+
     public void readVendorIdAttribute(IntegerAttributeCallback callback) {
       readVendorIdAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeVendorIdAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeVendorIdAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportVendorIdAttribute(IntegerAttributeCallback callback) {
+      reportVendorIdAttribute(chipClusterPtr, callback);
+    }
+
     public void readApplicationNameAttribute(CharStringAttributeCallback callback) {
       readApplicationNameAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeApplicationNameAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeApplicationNameAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportApplicationNameAttribute(CharStringAttributeCallback callback) {
+      reportApplicationNameAttribute(chipClusterPtr, callback);
+    }
+
     public void readProductIdAttribute(IntegerAttributeCallback callback) {
       readProductIdAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeProductIdAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeProductIdAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportProductIdAttribute(IntegerAttributeCallback callback) {
+      reportProductIdAttribute(chipClusterPtr, callback);
+    }
+
     public void readApplicationIdAttribute(CharStringAttributeCallback callback) {
       readApplicationIdAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeApplicationIdAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeApplicationIdAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportApplicationIdAttribute(CharStringAttributeCallback callback) {
+      reportApplicationIdAttribute(chipClusterPtr, callback);
+    }
+
     public void readCatalogVendorIdAttribute(IntegerAttributeCallback callback) {
       readCatalogVendorIdAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCatalogVendorIdAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCatalogVendorIdAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCatalogVendorIdAttribute(IntegerAttributeCallback callback) {
+      reportCatalogVendorIdAttribute(chipClusterPtr, callback);
+    }
+
     public void readApplicationStatusAttribute(IntegerAttributeCallback callback) {
       readApplicationStatusAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeApplicationStatusAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeApplicationStatusAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportApplicationStatusAttribute(IntegerAttributeCallback callback) {
+      reportApplicationStatusAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readVendorNameAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
+    private native void subscribeVendorNameAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportVendorNameAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readVendorIdAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeVendorIdAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportVendorIdAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readApplicationNameAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
+    private native void subscribeApplicationNameAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportApplicationNameAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readProductIdAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeProductIdAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportProductIdAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readApplicationIdAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
+    private native void subscribeApplicationIdAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportApplicationIdAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readCatalogVendorIdAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeCatalogVendorIdAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCatalogVendorIdAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readApplicationStatusAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeApplicationStatusAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportApplicationStatusAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class ApplicationLauncherCluster extends BaseChipCluster {
@@ -317,25 +467,70 @@ public void readCatalogVendorIdAttribute(IntegerAttributeCallback callback) {
       readCatalogVendorIdAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCatalogVendorIdAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCatalogVendorIdAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCatalogVendorIdAttribute(IntegerAttributeCallback callback) {
+      reportCatalogVendorIdAttribute(chipClusterPtr, callback);
+    }
+
     public void readApplicationIdAttribute(IntegerAttributeCallback callback) {
       readApplicationIdAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeApplicationIdAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeApplicationIdAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportApplicationIdAttribute(IntegerAttributeCallback callback) {
+      reportApplicationIdAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readApplicationLauncherListAttribute(
         long chipClusterPtr, ApplicationLauncherListAttributeCallback callback);
 
     private native void readCatalogVendorIdAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeCatalogVendorIdAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCatalogVendorIdAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readApplicationIdAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeApplicationIdAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportApplicationIdAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class AudioOutputCluster extends BaseChipCluster {
@@ -408,18 +603,48 @@ public void readCurrentAudioOutputAttribute(IntegerAttributeCallback callback) {
       readCurrentAudioOutputAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCurrentAudioOutputAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCurrentAudioOutputAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCurrentAudioOutputAttribute(IntegerAttributeCallback callback) {
+      reportCurrentAudioOutputAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readAudioOutputListAttribute(
         long chipClusterPtr, AudioOutputListAttributeCallback callback);
 
     private native void readCurrentAudioOutputAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeCurrentAudioOutputAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCurrentAudioOutputAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class BarrierControlCluster extends BaseChipCluster {
@@ -451,36 +676,111 @@ public void readBarrierMovingStateAttribute(IntegerAttributeCallback callback) {
       readBarrierMovingStateAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeBarrierMovingStateAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBarrierMovingStateAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportBarrierMovingStateAttribute(IntegerAttributeCallback callback) {
+      reportBarrierMovingStateAttribute(chipClusterPtr, callback);
+    }
+
     public void readBarrierSafetyStatusAttribute(IntegerAttributeCallback callback) {
       readBarrierSafetyStatusAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeBarrierSafetyStatusAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBarrierSafetyStatusAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportBarrierSafetyStatusAttribute(IntegerAttributeCallback callback) {
+      reportBarrierSafetyStatusAttribute(chipClusterPtr, callback);
+    }
+
     public void readBarrierCapabilitiesAttribute(IntegerAttributeCallback callback) {
       readBarrierCapabilitiesAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeBarrierCapabilitiesAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBarrierCapabilitiesAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportBarrierCapabilitiesAttribute(IntegerAttributeCallback callback) {
+      reportBarrierCapabilitiesAttribute(chipClusterPtr, callback);
+    }
+
     public void readBarrierPositionAttribute(IntegerAttributeCallback callback) {
       readBarrierPositionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeBarrierPositionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBarrierPositionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportBarrierPositionAttribute(IntegerAttributeCallback callback) {
+      reportBarrierPositionAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readBarrierMovingStateAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeBarrierMovingStateAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBarrierMovingStateAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readBarrierSafetyStatusAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeBarrierSafetyStatusAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBarrierSafetyStatusAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readBarrierCapabilitiesAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeBarrierCapabilitiesAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBarrierCapabilitiesAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readBarrierPositionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeBarrierPositionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBarrierPositionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class BasicCluster extends BaseChipCluster {
@@ -505,22 +805,67 @@ public void readInteractionModelVersionAttribute(IntegerAttributeCallback callba
       readInteractionModelVersionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeInteractionModelVersionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeInteractionModelVersionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportInteractionModelVersionAttribute(IntegerAttributeCallback callback) {
+      reportInteractionModelVersionAttribute(chipClusterPtr, callback);
+    }
+
     public void readVendorNameAttribute(CharStringAttributeCallback callback) {
       readVendorNameAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeVendorNameAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeVendorNameAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportVendorNameAttribute(CharStringAttributeCallback callback) {
+      reportVendorNameAttribute(chipClusterPtr, callback);
+    }
+
     public void readVendorIDAttribute(IntegerAttributeCallback callback) {
       readVendorIDAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeVendorIDAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeVendorIDAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportVendorIDAttribute(IntegerAttributeCallback callback) {
+      reportVendorIDAttribute(chipClusterPtr, callback);
+    }
+
     public void readProductNameAttribute(CharStringAttributeCallback callback) {
       readProductNameAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeProductNameAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeProductNameAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportProductNameAttribute(CharStringAttributeCallback callback) {
+      reportProductNameAttribute(chipClusterPtr, callback);
+    }
+
     public void readProductIDAttribute(IntegerAttributeCallback callback) {
       readProductIDAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeProductIDAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeProductIDAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportProductIDAttribute(IntegerAttributeCallback callback) {
+      reportProductIDAttribute(chipClusterPtr, callback);
+    }
+
     public void readUserLabelAttribute(CharStringAttributeCallback callback) {
       readUserLabelAttribute(chipClusterPtr, callback);
     }
@@ -529,6 +874,15 @@ public void writeUserLabelAttribute(DefaultClusterCallback callback, String valu
       writeUserLabelAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeUserLabelAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeUserLabelAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportUserLabelAttribute(CharStringAttributeCallback callback) {
+      reportUserLabelAttribute(chipClusterPtr, callback);
+    }
+
     public void readLocationAttribute(CharStringAttributeCallback callback) {
       readLocationAttribute(chipClusterPtr, callback);
     }
@@ -537,123 +891,354 @@ public void writeLocationAttribute(DefaultClusterCallback callback, String value
       writeLocationAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeLocationAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeLocationAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportLocationAttribute(CharStringAttributeCallback callback) {
+      reportLocationAttribute(chipClusterPtr, callback);
+    }
+
     public void readHardwareVersionAttribute(IntegerAttributeCallback callback) {
       readHardwareVersionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeHardwareVersionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeHardwareVersionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportHardwareVersionAttribute(IntegerAttributeCallback callback) {
+      reportHardwareVersionAttribute(chipClusterPtr, callback);
+    }
+
     public void readHardwareVersionStringAttribute(CharStringAttributeCallback callback) {
       readHardwareVersionStringAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeHardwareVersionStringAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeHardwareVersionStringAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportHardwareVersionStringAttribute(CharStringAttributeCallback callback) {
+      reportHardwareVersionStringAttribute(chipClusterPtr, callback);
+    }
+
     public void readSoftwareVersionAttribute(LongAttributeCallback callback) {
       readSoftwareVersionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeSoftwareVersionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeSoftwareVersionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportSoftwareVersionAttribute(LongAttributeCallback callback) {
+      reportSoftwareVersionAttribute(chipClusterPtr, callback);
+    }
+
     public void readSoftwareVersionStringAttribute(CharStringAttributeCallback callback) {
       readSoftwareVersionStringAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeSoftwareVersionStringAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeSoftwareVersionStringAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportSoftwareVersionStringAttribute(CharStringAttributeCallback callback) {
+      reportSoftwareVersionStringAttribute(chipClusterPtr, callback);
+    }
+
     public void readManufacturingDateAttribute(CharStringAttributeCallback callback) {
       readManufacturingDateAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeManufacturingDateAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeManufacturingDateAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportManufacturingDateAttribute(CharStringAttributeCallback callback) {
+      reportManufacturingDateAttribute(chipClusterPtr, callback);
+    }
+
     public void readPartNumberAttribute(CharStringAttributeCallback callback) {
       readPartNumberAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePartNumberAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePartNumberAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPartNumberAttribute(CharStringAttributeCallback callback) {
+      reportPartNumberAttribute(chipClusterPtr, callback);
+    }
+
     public void readProductURLAttribute(CharStringAttributeCallback callback) {
       readProductURLAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeProductURLAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeProductURLAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportProductURLAttribute(CharStringAttributeCallback callback) {
+      reportProductURLAttribute(chipClusterPtr, callback);
+    }
+
     public void readProductLabelAttribute(CharStringAttributeCallback callback) {
       readProductLabelAttribute(chipClusterPtr, callback);
     }
 
-    public void readSerialNumberAttribute(CharStringAttributeCallback callback) {
-      readSerialNumberAttribute(chipClusterPtr, callback);
+    public void subscribeProductLabelAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeProductLabelAttribute(chipClusterPtr, callback, minInterval, maxInterval);
     }
 
-    public void readLocalConfigDisabledAttribute(BooleanAttributeCallback callback) {
-      readLocalConfigDisabledAttribute(chipClusterPtr, callback);
+    public void reportProductLabelAttribute(CharStringAttributeCallback callback) {
+      reportProductLabelAttribute(chipClusterPtr, callback);
     }
 
-    public void writeLocalConfigDisabledAttribute(DefaultClusterCallback callback, boolean value) {
+    public void readSerialNumberAttribute(CharStringAttributeCallback callback) {
+      readSerialNumberAttribute(chipClusterPtr, callback);
+    }
+
+    public void subscribeSerialNumberAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeSerialNumberAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportSerialNumberAttribute(CharStringAttributeCallback callback) {
+      reportSerialNumberAttribute(chipClusterPtr, callback);
+    }
+
+    public void readLocalConfigDisabledAttribute(BooleanAttributeCallback callback) {
+      readLocalConfigDisabledAttribute(chipClusterPtr, callback);
+    }
+
+    public void writeLocalConfigDisabledAttribute(DefaultClusterCallback callback, boolean value) {
       writeLocalConfigDisabledAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeLocalConfigDisabledAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeLocalConfigDisabledAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportLocalConfigDisabledAttribute(BooleanAttributeCallback callback) {
+      reportLocalConfigDisabledAttribute(chipClusterPtr, callback);
+    }
+
     public void readReachableAttribute(BooleanAttributeCallback callback) {
       readReachableAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeReachableAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeReachableAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportReachableAttribute(BooleanAttributeCallback callback) {
+      reportReachableAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readInteractionModelVersionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeInteractionModelVersionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportInteractionModelVersionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readVendorNameAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
+    private native void subscribeVendorNameAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportVendorNameAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readVendorIDAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeVendorIDAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportVendorIDAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readProductNameAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
+    private native void subscribeProductNameAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportProductNameAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readProductIDAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeProductIDAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportProductIDAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readUserLabelAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
     private native void writeUserLabelAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, String value);
 
+    private native void subscribeUserLabelAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportUserLabelAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readLocationAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
     private native void writeLocationAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, String value);
 
+    private native void subscribeLocationAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportLocationAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readHardwareVersionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeHardwareVersionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportHardwareVersionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readHardwareVersionStringAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
+    private native void subscribeHardwareVersionStringAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportHardwareVersionStringAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readSoftwareVersionAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeSoftwareVersionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportSoftwareVersionAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readSoftwareVersionStringAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
+    private native void subscribeSoftwareVersionStringAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportSoftwareVersionStringAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readManufacturingDateAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
+    private native void subscribeManufacturingDateAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportManufacturingDateAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readPartNumberAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
+    private native void subscribePartNumberAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPartNumberAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readProductURLAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
+    private native void subscribeProductURLAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportProductURLAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readProductLabelAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
+    private native void subscribeProductLabelAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportProductLabelAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readSerialNumberAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
+    private native void subscribeSerialNumberAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportSerialNumberAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readLocalConfigDisabledAttribute(
         long chipClusterPtr, BooleanAttributeCallback callback);
 
     private native void writeLocalConfigDisabledAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, boolean value);
 
+    private native void subscribeLocalConfigDisabledAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportLocalConfigDisabledAttribute(
+        long chipClusterPtr, BooleanAttributeCallback callback);
+
     private native void readReachableAttribute(
         long chipClusterPtr, BooleanAttributeCallback callback);
 
+    private native void subscribeReachableAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportReachableAttribute(
+        long chipClusterPtr, BooleanAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class BinaryInputBasicCluster extends BaseChipCluster {
@@ -676,6 +1261,15 @@ public void writeOutOfServiceAttribute(DefaultClusterCallback callback, boolean
       writeOutOfServiceAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeOutOfServiceAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeOutOfServiceAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportOutOfServiceAttribute(BooleanAttributeCallback callback) {
+      reportOutOfServiceAttribute(chipClusterPtr, callback);
+    }
+
     public void readPresentValueAttribute(BooleanAttributeCallback callback) {
       readPresentValueAttribute(chipClusterPtr, callback);
     }
@@ -710,12 +1304,27 @@ public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readOutOfServiceAttribute(
         long chipClusterPtr, BooleanAttributeCallback callback);
 
     private native void writeOutOfServiceAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, boolean value);
 
+    private native void subscribeOutOfServiceAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportOutOfServiceAttribute(
+        long chipClusterPtr, BooleanAttributeCallback callback);
+
     private native void readPresentValueAttribute(
         long chipClusterPtr, BooleanAttributeCallback callback);
 
@@ -739,6 +1348,12 @@ private native void reportStatusFlagsAttribute(
 
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class BindingCluster extends BaseChipCluster {
@@ -791,8 +1406,23 @@ public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class BooleanStateCluster extends BaseChipCluster {
@@ -824,6 +1454,15 @@ public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readStateValueAttribute(
         long chipClusterPtr, BooleanAttributeCallback callback);
 
@@ -835,6 +1474,12 @@ private native void reportStateValueAttribute(
 
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class BridgedActionsCluster extends BaseChipCluster {
@@ -1104,10 +1749,28 @@ public void readSetupUrlAttribute(CharStringAttributeCallback callback) {
       readSetupUrlAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeSetupUrlAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeSetupUrlAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportSetupUrlAttribute(CharStringAttributeCallback callback) {
+      reportSetupUrlAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readActionListAttribute(
         long chipClusterPtr, ActionListAttributeCallback callback);
 
@@ -1117,8 +1780,20 @@ private native void readEndpointListAttribute(
     private native void readSetupUrlAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
+    private native void subscribeSetupUrlAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportSetupUrlAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class BridgedDeviceBasicInformationCluster extends BaseChipCluster {
@@ -1137,8 +1812,23 @@ public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class ColorControlCluster extends BaseChipCluster {
@@ -1601,6 +2291,15 @@ public void readRemainingTimeAttribute(IntegerAttributeCallback callback) {
       readRemainingTimeAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRemainingTimeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRemainingTimeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRemainingTimeAttribute(IntegerAttributeCallback callback) {
+      reportRemainingTimeAttribute(chipClusterPtr, callback);
+    }
+
     public void readCurrentXAttribute(IntegerAttributeCallback callback) {
       readCurrentXAttribute(chipClusterPtr, callback);
     }
@@ -1631,10 +2330,28 @@ public void readDriftCompensationAttribute(IntegerAttributeCallback callback) {
       readDriftCompensationAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeDriftCompensationAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeDriftCompensationAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportDriftCompensationAttribute(IntegerAttributeCallback callback) {
+      reportDriftCompensationAttribute(chipClusterPtr, callback);
+    }
+
     public void readCompensationTextAttribute(CharStringAttributeCallback callback) {
       readCompensationTextAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCompensationTextAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCompensationTextAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCompensationTextAttribute(CharStringAttributeCallback callback) {
+      reportCompensationTextAttribute(chipClusterPtr, callback);
+    }
+
     public void readColorTemperatureAttribute(IntegerAttributeCallback callback) {
       readColorTemperatureAttribute(chipClusterPtr, callback);
     }
@@ -1652,6 +2369,15 @@ public void readColorModeAttribute(IntegerAttributeCallback callback) {
       readColorModeAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeColorModeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeColorModeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportColorModeAttribute(IntegerAttributeCallback callback) {
+      reportColorModeAttribute(chipClusterPtr, callback);
+    }
+
     public void readColorControlOptionsAttribute(IntegerAttributeCallback callback) {
       readColorControlOptionsAttribute(chipClusterPtr, callback);
     }
@@ -1660,82 +2386,262 @@ public void writeColorControlOptionsAttribute(DefaultClusterCallback callback, i
       writeColorControlOptionsAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeColorControlOptionsAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeColorControlOptionsAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportColorControlOptionsAttribute(IntegerAttributeCallback callback) {
+      reportColorControlOptionsAttribute(chipClusterPtr, callback);
+    }
+
     public void readNumberOfPrimariesAttribute(IntegerAttributeCallback callback) {
       readNumberOfPrimariesAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeNumberOfPrimariesAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNumberOfPrimariesAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNumberOfPrimariesAttribute(IntegerAttributeCallback callback) {
+      reportNumberOfPrimariesAttribute(chipClusterPtr, callback);
+    }
+
     public void readPrimary1XAttribute(IntegerAttributeCallback callback) {
       readPrimary1XAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePrimary1XAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePrimary1XAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPrimary1XAttribute(IntegerAttributeCallback callback) {
+      reportPrimary1XAttribute(chipClusterPtr, callback);
+    }
+
     public void readPrimary1YAttribute(IntegerAttributeCallback callback) {
       readPrimary1YAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePrimary1YAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePrimary1YAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPrimary1YAttribute(IntegerAttributeCallback callback) {
+      reportPrimary1YAttribute(chipClusterPtr, callback);
+    }
+
     public void readPrimary1IntensityAttribute(IntegerAttributeCallback callback) {
       readPrimary1IntensityAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePrimary1IntensityAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePrimary1IntensityAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPrimary1IntensityAttribute(IntegerAttributeCallback callback) {
+      reportPrimary1IntensityAttribute(chipClusterPtr, callback);
+    }
+
     public void readPrimary2XAttribute(IntegerAttributeCallback callback) {
       readPrimary2XAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePrimary2XAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePrimary2XAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPrimary2XAttribute(IntegerAttributeCallback callback) {
+      reportPrimary2XAttribute(chipClusterPtr, callback);
+    }
+
     public void readPrimary2YAttribute(IntegerAttributeCallback callback) {
       readPrimary2YAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePrimary2YAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePrimary2YAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPrimary2YAttribute(IntegerAttributeCallback callback) {
+      reportPrimary2YAttribute(chipClusterPtr, callback);
+    }
+
     public void readPrimary2IntensityAttribute(IntegerAttributeCallback callback) {
       readPrimary2IntensityAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePrimary2IntensityAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePrimary2IntensityAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPrimary2IntensityAttribute(IntegerAttributeCallback callback) {
+      reportPrimary2IntensityAttribute(chipClusterPtr, callback);
+    }
+
     public void readPrimary3XAttribute(IntegerAttributeCallback callback) {
       readPrimary3XAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePrimary3XAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePrimary3XAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPrimary3XAttribute(IntegerAttributeCallback callback) {
+      reportPrimary3XAttribute(chipClusterPtr, callback);
+    }
+
     public void readPrimary3YAttribute(IntegerAttributeCallback callback) {
       readPrimary3YAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePrimary3YAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePrimary3YAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPrimary3YAttribute(IntegerAttributeCallback callback) {
+      reportPrimary3YAttribute(chipClusterPtr, callback);
+    }
+
     public void readPrimary3IntensityAttribute(IntegerAttributeCallback callback) {
       readPrimary3IntensityAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePrimary3IntensityAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePrimary3IntensityAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPrimary3IntensityAttribute(IntegerAttributeCallback callback) {
+      reportPrimary3IntensityAttribute(chipClusterPtr, callback);
+    }
+
     public void readPrimary4XAttribute(IntegerAttributeCallback callback) {
       readPrimary4XAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePrimary4XAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePrimary4XAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPrimary4XAttribute(IntegerAttributeCallback callback) {
+      reportPrimary4XAttribute(chipClusterPtr, callback);
+    }
+
     public void readPrimary4YAttribute(IntegerAttributeCallback callback) {
       readPrimary4YAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePrimary4YAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePrimary4YAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPrimary4YAttribute(IntegerAttributeCallback callback) {
+      reportPrimary4YAttribute(chipClusterPtr, callback);
+    }
+
     public void readPrimary4IntensityAttribute(IntegerAttributeCallback callback) {
       readPrimary4IntensityAttribute(chipClusterPtr, callback);
     }
 
-    public void readPrimary5XAttribute(IntegerAttributeCallback callback) {
-      readPrimary5XAttribute(chipClusterPtr, callback);
+    public void subscribePrimary4IntensityAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePrimary4IntensityAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPrimary4IntensityAttribute(IntegerAttributeCallback callback) {
+      reportPrimary4IntensityAttribute(chipClusterPtr, callback);
+    }
+
+    public void readPrimary5XAttribute(IntegerAttributeCallback callback) {
+      readPrimary5XAttribute(chipClusterPtr, callback);
+    }
+
+    public void subscribePrimary5XAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePrimary5XAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPrimary5XAttribute(IntegerAttributeCallback callback) {
+      reportPrimary5XAttribute(chipClusterPtr, callback);
     }
 
     public void readPrimary5YAttribute(IntegerAttributeCallback callback) {
       readPrimary5YAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePrimary5YAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePrimary5YAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPrimary5YAttribute(IntegerAttributeCallback callback) {
+      reportPrimary5YAttribute(chipClusterPtr, callback);
+    }
+
     public void readPrimary5IntensityAttribute(IntegerAttributeCallback callback) {
       readPrimary5IntensityAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePrimary5IntensityAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePrimary5IntensityAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPrimary5IntensityAttribute(IntegerAttributeCallback callback) {
+      reportPrimary5IntensityAttribute(chipClusterPtr, callback);
+    }
+
     public void readPrimary6XAttribute(IntegerAttributeCallback callback) {
       readPrimary6XAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePrimary6XAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePrimary6XAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPrimary6XAttribute(IntegerAttributeCallback callback) {
+      reportPrimary6XAttribute(chipClusterPtr, callback);
+    }
+
     public void readPrimary6YAttribute(IntegerAttributeCallback callback) {
       readPrimary6YAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePrimary6YAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePrimary6YAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPrimary6YAttribute(IntegerAttributeCallback callback) {
+      reportPrimary6YAttribute(chipClusterPtr, callback);
+    }
+
     public void readPrimary6IntensityAttribute(IntegerAttributeCallback callback) {
       readPrimary6IntensityAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePrimary6IntensityAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePrimary6IntensityAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPrimary6IntensityAttribute(IntegerAttributeCallback callback) {
+      reportPrimary6IntensityAttribute(chipClusterPtr, callback);
+    }
+
     public void readWhitePointXAttribute(IntegerAttributeCallback callback) {
       readWhitePointXAttribute(chipClusterPtr, callback);
     }
@@ -1744,6 +2650,15 @@ public void writeWhitePointXAttribute(DefaultClusterCallback callback, int value
       writeWhitePointXAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeWhitePointXAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeWhitePointXAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportWhitePointXAttribute(IntegerAttributeCallback callback) {
+      reportWhitePointXAttribute(chipClusterPtr, callback);
+    }
+
     public void readWhitePointYAttribute(IntegerAttributeCallback callback) {
       readWhitePointYAttribute(chipClusterPtr, callback);
     }
@@ -1752,6 +2667,15 @@ public void writeWhitePointYAttribute(DefaultClusterCallback callback, int value
       writeWhitePointYAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeWhitePointYAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeWhitePointYAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportWhitePointYAttribute(IntegerAttributeCallback callback) {
+      reportWhitePointYAttribute(chipClusterPtr, callback);
+    }
+
     public void readColorPointRXAttribute(IntegerAttributeCallback callback) {
       readColorPointRXAttribute(chipClusterPtr, callback);
     }
@@ -1760,6 +2684,15 @@ public void writeColorPointRXAttribute(DefaultClusterCallback callback, int valu
       writeColorPointRXAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeColorPointRXAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeColorPointRXAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportColorPointRXAttribute(IntegerAttributeCallback callback) {
+      reportColorPointRXAttribute(chipClusterPtr, callback);
+    }
+
     public void readColorPointRYAttribute(IntegerAttributeCallback callback) {
       readColorPointRYAttribute(chipClusterPtr, callback);
     }
@@ -1768,6 +2701,15 @@ public void writeColorPointRYAttribute(DefaultClusterCallback callback, int valu
       writeColorPointRYAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeColorPointRYAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeColorPointRYAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportColorPointRYAttribute(IntegerAttributeCallback callback) {
+      reportColorPointRYAttribute(chipClusterPtr, callback);
+    }
+
     public void readColorPointRIntensityAttribute(IntegerAttributeCallback callback) {
       readColorPointRIntensityAttribute(chipClusterPtr, callback);
     }
@@ -1776,6 +2718,15 @@ public void writeColorPointRIntensityAttribute(DefaultClusterCallback callback,
       writeColorPointRIntensityAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeColorPointRIntensityAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeColorPointRIntensityAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportColorPointRIntensityAttribute(IntegerAttributeCallback callback) {
+      reportColorPointRIntensityAttribute(chipClusterPtr, callback);
+    }
+
     public void readColorPointGXAttribute(IntegerAttributeCallback callback) {
       readColorPointGXAttribute(chipClusterPtr, callback);
     }
@@ -1784,6 +2735,15 @@ public void writeColorPointGXAttribute(DefaultClusterCallback callback, int valu
       writeColorPointGXAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeColorPointGXAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeColorPointGXAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportColorPointGXAttribute(IntegerAttributeCallback callback) {
+      reportColorPointGXAttribute(chipClusterPtr, callback);
+    }
+
     public void readColorPointGYAttribute(IntegerAttributeCallback callback) {
       readColorPointGYAttribute(chipClusterPtr, callback);
     }
@@ -1792,6 +2752,15 @@ public void writeColorPointGYAttribute(DefaultClusterCallback callback, int valu
       writeColorPointGYAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeColorPointGYAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeColorPointGYAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportColorPointGYAttribute(IntegerAttributeCallback callback) {
+      reportColorPointGYAttribute(chipClusterPtr, callback);
+    }
+
     public void readColorPointGIntensityAttribute(IntegerAttributeCallback callback) {
       readColorPointGIntensityAttribute(chipClusterPtr, callback);
     }
@@ -1800,6 +2769,15 @@ public void writeColorPointGIntensityAttribute(DefaultClusterCallback callback,
       writeColorPointGIntensityAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeColorPointGIntensityAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeColorPointGIntensityAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportColorPointGIntensityAttribute(IntegerAttributeCallback callback) {
+      reportColorPointGIntensityAttribute(chipClusterPtr, callback);
+    }
+
     public void readColorPointBXAttribute(IntegerAttributeCallback callback) {
       readColorPointBXAttribute(chipClusterPtr, callback);
     }
@@ -1808,6 +2786,15 @@ public void writeColorPointBXAttribute(DefaultClusterCallback callback, int valu
       writeColorPointBXAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeColorPointBXAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeColorPointBXAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportColorPointBXAttribute(IntegerAttributeCallback callback) {
+      reportColorPointBXAttribute(chipClusterPtr, callback);
+    }
+
     public void readColorPointBYAttribute(IntegerAttributeCallback callback) {
       readColorPointBYAttribute(chipClusterPtr, callback);
     }
@@ -1816,6 +2803,15 @@ public void writeColorPointBYAttribute(DefaultClusterCallback callback, int valu
       writeColorPointBYAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeColorPointBYAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeColorPointBYAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportColorPointBYAttribute(IntegerAttributeCallback callback) {
+      reportColorPointBYAttribute(chipClusterPtr, callback);
+    }
+
     public void readColorPointBIntensityAttribute(IntegerAttributeCallback callback) {
       readColorPointBIntensityAttribute(chipClusterPtr, callback);
     }
@@ -1824,50 +2820,161 @@ public void writeColorPointBIntensityAttribute(DefaultClusterCallback callback,
       writeColorPointBIntensityAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeColorPointBIntensityAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeColorPointBIntensityAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportColorPointBIntensityAttribute(IntegerAttributeCallback callback) {
+      reportColorPointBIntensityAttribute(chipClusterPtr, callback);
+    }
+
     public void readEnhancedCurrentHueAttribute(IntegerAttributeCallback callback) {
       readEnhancedCurrentHueAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeEnhancedCurrentHueAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeEnhancedCurrentHueAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportEnhancedCurrentHueAttribute(IntegerAttributeCallback callback) {
+      reportEnhancedCurrentHueAttribute(chipClusterPtr, callback);
+    }
+
     public void readEnhancedColorModeAttribute(IntegerAttributeCallback callback) {
       readEnhancedColorModeAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeEnhancedColorModeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeEnhancedColorModeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportEnhancedColorModeAttribute(IntegerAttributeCallback callback) {
+      reportEnhancedColorModeAttribute(chipClusterPtr, callback);
+    }
+
     public void readColorLoopActiveAttribute(IntegerAttributeCallback callback) {
       readColorLoopActiveAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeColorLoopActiveAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeColorLoopActiveAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportColorLoopActiveAttribute(IntegerAttributeCallback callback) {
+      reportColorLoopActiveAttribute(chipClusterPtr, callback);
+    }
+
     public void readColorLoopDirectionAttribute(IntegerAttributeCallback callback) {
       readColorLoopDirectionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeColorLoopDirectionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeColorLoopDirectionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportColorLoopDirectionAttribute(IntegerAttributeCallback callback) {
+      reportColorLoopDirectionAttribute(chipClusterPtr, callback);
+    }
+
     public void readColorLoopTimeAttribute(IntegerAttributeCallback callback) {
       readColorLoopTimeAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeColorLoopTimeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeColorLoopTimeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportColorLoopTimeAttribute(IntegerAttributeCallback callback) {
+      reportColorLoopTimeAttribute(chipClusterPtr, callback);
+    }
+
     public void readColorLoopStartEnhancedHueAttribute(IntegerAttributeCallback callback) {
       readColorLoopStartEnhancedHueAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeColorLoopStartEnhancedHueAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeColorLoopStartEnhancedHueAttribute(
+          chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportColorLoopStartEnhancedHueAttribute(IntegerAttributeCallback callback) {
+      reportColorLoopStartEnhancedHueAttribute(chipClusterPtr, callback);
+    }
+
     public void readColorLoopStoredEnhancedHueAttribute(IntegerAttributeCallback callback) {
       readColorLoopStoredEnhancedHueAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeColorLoopStoredEnhancedHueAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeColorLoopStoredEnhancedHueAttribute(
+          chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportColorLoopStoredEnhancedHueAttribute(IntegerAttributeCallback callback) {
+      reportColorLoopStoredEnhancedHueAttribute(chipClusterPtr, callback);
+    }
+
     public void readColorCapabilitiesAttribute(IntegerAttributeCallback callback) {
       readColorCapabilitiesAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeColorCapabilitiesAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeColorCapabilitiesAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportColorCapabilitiesAttribute(IntegerAttributeCallback callback) {
+      reportColorCapabilitiesAttribute(chipClusterPtr, callback);
+    }
+
     public void readColorTempPhysicalMinAttribute(IntegerAttributeCallback callback) {
       readColorTempPhysicalMinAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeColorTempPhysicalMinAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeColorTempPhysicalMinAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportColorTempPhysicalMinAttribute(IntegerAttributeCallback callback) {
+      reportColorTempPhysicalMinAttribute(chipClusterPtr, callback);
+    }
+
     public void readColorTempPhysicalMaxAttribute(IntegerAttributeCallback callback) {
       readColorTempPhysicalMaxAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeColorTempPhysicalMaxAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeColorTempPhysicalMaxAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportColorTempPhysicalMaxAttribute(IntegerAttributeCallback callback) {
+      reportColorTempPhysicalMaxAttribute(chipClusterPtr, callback);
+    }
+
     public void readCoupleColorTempToLevelMinMiredsAttribute(IntegerAttributeCallback callback) {
       readCoupleColorTempToLevelMinMiredsAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCoupleColorTempToLevelMinMiredsAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCoupleColorTempToLevelMinMiredsAttribute(
+          chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCoupleColorTempToLevelMinMiredsAttribute(IntegerAttributeCallback callback) {
+      reportCoupleColorTempToLevelMinMiredsAttribute(chipClusterPtr, callback);
+    }
+
     public void readStartUpColorTemperatureMiredsAttribute(IntegerAttributeCallback callback) {
       readStartUpColorTemperatureMiredsAttribute(chipClusterPtr, callback);
     }
@@ -1877,10 +2984,29 @@ public void writeStartUpColorTemperatureMiredsAttribute(
       writeStartUpColorTemperatureMiredsAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeStartUpColorTemperatureMiredsAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeStartUpColorTemperatureMiredsAttribute(
+          chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportStartUpColorTemperatureMiredsAttribute(IntegerAttributeCallback callback) {
+      reportStartUpColorTemperatureMiredsAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readCurrentHueAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -1902,6 +3028,12 @@ private native void reportCurrentSaturationAttribute(
     private native void readRemainingTimeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeRemainingTimeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRemainingTimeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readCurrentXAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -1923,9 +3055,21 @@ private native void reportCurrentYAttribute(
     private native void readDriftCompensationAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeDriftCompensationAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportDriftCompensationAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readCompensationTextAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
+    private native void subscribeCompensationTextAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCompensationTextAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readColorTemperatureAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -1938,176 +3082,446 @@ private native void reportColorTemperatureAttribute(
     private native void readColorModeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeColorModeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportColorModeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readColorControlOptionsAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeColorControlOptionsAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeColorControlOptionsAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportColorControlOptionsAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readNumberOfPrimariesAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeNumberOfPrimariesAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNumberOfPrimariesAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPrimary1XAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePrimary1XAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPrimary1XAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPrimary1YAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePrimary1YAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPrimary1YAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPrimary1IntensityAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePrimary1IntensityAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPrimary1IntensityAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPrimary2XAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePrimary2XAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPrimary2XAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPrimary2YAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePrimary2YAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPrimary2YAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPrimary2IntensityAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePrimary2IntensityAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPrimary2IntensityAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPrimary3XAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePrimary3XAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPrimary3XAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPrimary3YAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePrimary3YAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPrimary3YAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPrimary3IntensityAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePrimary3IntensityAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPrimary3IntensityAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPrimary4XAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePrimary4XAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPrimary4XAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPrimary4YAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePrimary4YAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPrimary4YAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPrimary4IntensityAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePrimary4IntensityAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPrimary4IntensityAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPrimary5XAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePrimary5XAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPrimary5XAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPrimary5YAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePrimary5YAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPrimary5YAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPrimary5IntensityAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePrimary5IntensityAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPrimary5IntensityAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPrimary6XAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePrimary6XAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPrimary6XAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPrimary6YAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePrimary6YAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPrimary6YAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPrimary6IntensityAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePrimary6IntensityAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPrimary6IntensityAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readWhitePointXAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeWhitePointXAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeWhitePointXAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportWhitePointXAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readWhitePointYAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeWhitePointYAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeWhitePointYAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportWhitePointYAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readColorPointRXAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeColorPointRXAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeColorPointRXAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportColorPointRXAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readColorPointRYAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeColorPointRYAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeColorPointRYAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportColorPointRYAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readColorPointRIntensityAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeColorPointRIntensityAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeColorPointRIntensityAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportColorPointRIntensityAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readColorPointGXAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeColorPointGXAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeColorPointGXAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportColorPointGXAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readColorPointGYAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeColorPointGYAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeColorPointGYAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportColorPointGYAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readColorPointGIntensityAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeColorPointGIntensityAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeColorPointGIntensityAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportColorPointGIntensityAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readColorPointBXAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeColorPointBXAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeColorPointBXAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportColorPointBXAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readColorPointBYAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeColorPointBYAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeColorPointBYAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportColorPointBYAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readColorPointBIntensityAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeColorPointBIntensityAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeColorPointBIntensityAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportColorPointBIntensityAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readEnhancedCurrentHueAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeEnhancedCurrentHueAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportEnhancedCurrentHueAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readEnhancedColorModeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeEnhancedColorModeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportEnhancedColorModeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readColorLoopActiveAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeColorLoopActiveAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportColorLoopActiveAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readColorLoopDirectionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeColorLoopDirectionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportColorLoopDirectionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readColorLoopTimeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeColorLoopTimeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportColorLoopTimeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readColorLoopStartEnhancedHueAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeColorLoopStartEnhancedHueAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportColorLoopStartEnhancedHueAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readColorLoopStoredEnhancedHueAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeColorLoopStoredEnhancedHueAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportColorLoopStoredEnhancedHueAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readColorCapabilitiesAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeColorCapabilitiesAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportColorCapabilitiesAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readColorTempPhysicalMinAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeColorTempPhysicalMinAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportColorTempPhysicalMinAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readColorTempPhysicalMaxAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeColorTempPhysicalMaxAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportColorTempPhysicalMaxAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readCoupleColorTempToLevelMinMiredsAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeCoupleColorTempToLevelMinMiredsAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCoupleColorTempToLevelMinMiredsAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readStartUpColorTemperatureMiredsAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeStartUpColorTemperatureMiredsAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeStartUpColorTemperatureMiredsAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportStartUpColorTemperatureMiredsAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class ContentLauncherCluster extends BaseChipCluster {
@@ -2178,6 +3592,15 @@ public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readAcceptsHeaderListAttribute(
         long chipClusterPtr, AcceptsHeaderListAttributeCallback callback);
 
@@ -2186,6 +3609,12 @@ private native void readSupportedStreamingTypesAttribute(
 
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class DescriptorCluster extends BaseChipCluster {
@@ -2268,6 +3697,15 @@ public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readDeviceListAttribute(
         long chipClusterPtr, DeviceListAttributeCallback callback);
 
@@ -2282,6 +3720,12 @@ private native void readPartsListAttribute(
 
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class DiagnosticLogsCluster extends BaseChipCluster {
@@ -2768,14 +4212,41 @@ public void readLockTypeAttribute(IntegerAttributeCallback callback) {
       readLockTypeAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeLockTypeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeLockTypeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportLockTypeAttribute(IntegerAttributeCallback callback) {
+      reportLockTypeAttribute(chipClusterPtr, callback);
+    }
+
     public void readActuatorEnabledAttribute(BooleanAttributeCallback callback) {
       readActuatorEnabledAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeActuatorEnabledAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeActuatorEnabledAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportActuatorEnabledAttribute(BooleanAttributeCallback callback) {
+      reportActuatorEnabledAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readLockStateAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -2788,11 +4259,29 @@ private native void reportLockStateAttribute(
     private native void readLockTypeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeLockTypeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportLockTypeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readActuatorEnabledAttribute(
         long chipClusterPtr, BooleanAttributeCallback callback);
 
+    private native void subscribeActuatorEnabledAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportActuatorEnabledAttribute(
+        long chipClusterPtr, BooleanAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class ElectricalMeasurementCluster extends BaseChipCluster {
@@ -2811,85 +4300,265 @@ public void readMeasurementTypeAttribute(LongAttributeCallback callback) {
       readMeasurementTypeAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMeasurementTypeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMeasurementTypeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMeasurementTypeAttribute(LongAttributeCallback callback) {
+      reportMeasurementTypeAttribute(chipClusterPtr, callback);
+    }
+
     public void readTotalActivePowerAttribute(LongAttributeCallback callback) {
       readTotalActivePowerAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTotalActivePowerAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTotalActivePowerAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTotalActivePowerAttribute(LongAttributeCallback callback) {
+      reportTotalActivePowerAttribute(chipClusterPtr, callback);
+    }
+
     public void readRmsVoltageAttribute(IntegerAttributeCallback callback) {
       readRmsVoltageAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRmsVoltageAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRmsVoltageAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRmsVoltageAttribute(IntegerAttributeCallback callback) {
+      reportRmsVoltageAttribute(chipClusterPtr, callback);
+    }
+
     public void readRmsVoltageMinAttribute(IntegerAttributeCallback callback) {
       readRmsVoltageMinAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRmsVoltageMinAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRmsVoltageMinAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRmsVoltageMinAttribute(IntegerAttributeCallback callback) {
+      reportRmsVoltageMinAttribute(chipClusterPtr, callback);
+    }
+
     public void readRmsVoltageMaxAttribute(IntegerAttributeCallback callback) {
       readRmsVoltageMaxAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRmsVoltageMaxAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRmsVoltageMaxAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRmsVoltageMaxAttribute(IntegerAttributeCallback callback) {
+      reportRmsVoltageMaxAttribute(chipClusterPtr, callback);
+    }
+
     public void readRmsCurrentAttribute(IntegerAttributeCallback callback) {
       readRmsCurrentAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRmsCurrentAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRmsCurrentAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRmsCurrentAttribute(IntegerAttributeCallback callback) {
+      reportRmsCurrentAttribute(chipClusterPtr, callback);
+    }
+
     public void readRmsCurrentMinAttribute(IntegerAttributeCallback callback) {
       readRmsCurrentMinAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRmsCurrentMinAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRmsCurrentMinAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRmsCurrentMinAttribute(IntegerAttributeCallback callback) {
+      reportRmsCurrentMinAttribute(chipClusterPtr, callback);
+    }
+
     public void readRmsCurrentMaxAttribute(IntegerAttributeCallback callback) {
       readRmsCurrentMaxAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRmsCurrentMaxAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRmsCurrentMaxAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRmsCurrentMaxAttribute(IntegerAttributeCallback callback) {
+      reportRmsCurrentMaxAttribute(chipClusterPtr, callback);
+    }
+
     public void readActivePowerAttribute(IntegerAttributeCallback callback) {
       readActivePowerAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeActivePowerAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeActivePowerAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportActivePowerAttribute(IntegerAttributeCallback callback) {
+      reportActivePowerAttribute(chipClusterPtr, callback);
+    }
+
     public void readActivePowerMinAttribute(IntegerAttributeCallback callback) {
       readActivePowerMinAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeActivePowerMinAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeActivePowerMinAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportActivePowerMinAttribute(IntegerAttributeCallback callback) {
+      reportActivePowerMinAttribute(chipClusterPtr, callback);
+    }
+
     public void readActivePowerMaxAttribute(IntegerAttributeCallback callback) {
       readActivePowerMaxAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeActivePowerMaxAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeActivePowerMaxAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportActivePowerMaxAttribute(IntegerAttributeCallback callback) {
+      reportActivePowerMaxAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readMeasurementTypeAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeMeasurementTypeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMeasurementTypeAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readTotalActivePowerAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTotalActivePowerAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTotalActivePowerAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readRmsVoltageAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeRmsVoltageAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRmsVoltageAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readRmsVoltageMinAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeRmsVoltageMinAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRmsVoltageMinAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readRmsVoltageMaxAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeRmsVoltageMaxAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRmsVoltageMaxAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readRmsCurrentAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeRmsCurrentAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRmsCurrentAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readRmsCurrentMinAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeRmsCurrentMinAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRmsCurrentMinAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readRmsCurrentMaxAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeRmsCurrentMaxAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRmsCurrentMaxAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readActivePowerAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeActivePowerAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportActivePowerAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readActivePowerMinAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeActivePowerMinAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportActivePowerMinAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readActivePowerMaxAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeActivePowerMaxAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportActivePowerMaxAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class EthernetNetworkDiagnosticsCluster extends BaseChipCluster {
@@ -2914,71 +4583,221 @@ public void readPHYRateAttribute(IntegerAttributeCallback callback) {
       readPHYRateAttribute(chipClusterPtr, callback);
     }
 
-    public void readFullDuplexAttribute(BooleanAttributeCallback callback) {
-      readFullDuplexAttribute(chipClusterPtr, callback);
+    public void subscribePHYRateAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePHYRateAttribute(chipClusterPtr, callback, minInterval, maxInterval);
     }
 
-    public void readPacketRxCountAttribute(LongAttributeCallback callback) {
-      readPacketRxCountAttribute(chipClusterPtr, callback);
+    public void reportPHYRateAttribute(IntegerAttributeCallback callback) {
+      reportPHYRateAttribute(chipClusterPtr, callback);
     }
 
-    public void readPacketTxCountAttribute(LongAttributeCallback callback) {
-      readPacketTxCountAttribute(chipClusterPtr, callback);
+    public void readFullDuplexAttribute(BooleanAttributeCallback callback) {
+      readFullDuplexAttribute(chipClusterPtr, callback);
+    }
+
+    public void subscribeFullDuplexAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeFullDuplexAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportFullDuplexAttribute(BooleanAttributeCallback callback) {
+      reportFullDuplexAttribute(chipClusterPtr, callback);
+    }
+
+    public void readPacketRxCountAttribute(LongAttributeCallback callback) {
+      readPacketRxCountAttribute(chipClusterPtr, callback);
+    }
+
+    public void subscribePacketRxCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePacketRxCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPacketRxCountAttribute(LongAttributeCallback callback) {
+      reportPacketRxCountAttribute(chipClusterPtr, callback);
+    }
+
+    public void readPacketTxCountAttribute(LongAttributeCallback callback) {
+      readPacketTxCountAttribute(chipClusterPtr, callback);
+    }
+
+    public void subscribePacketTxCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePacketTxCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPacketTxCountAttribute(LongAttributeCallback callback) {
+      reportPacketTxCountAttribute(chipClusterPtr, callback);
     }
 
     public void readTxErrCountAttribute(LongAttributeCallback callback) {
       readTxErrCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTxErrCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTxErrCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTxErrCountAttribute(LongAttributeCallback callback) {
+      reportTxErrCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readCollisionCountAttribute(LongAttributeCallback callback) {
       readCollisionCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCollisionCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCollisionCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCollisionCountAttribute(LongAttributeCallback callback) {
+      reportCollisionCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readOverrunCountAttribute(LongAttributeCallback callback) {
       readOverrunCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeOverrunCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeOverrunCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportOverrunCountAttribute(LongAttributeCallback callback) {
+      reportOverrunCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readCarrierDetectAttribute(BooleanAttributeCallback callback) {
       readCarrierDetectAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCarrierDetectAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCarrierDetectAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCarrierDetectAttribute(BooleanAttributeCallback callback) {
+      reportCarrierDetectAttribute(chipClusterPtr, callback);
+    }
+
     public void readTimeSinceResetAttribute(LongAttributeCallback callback) {
       readTimeSinceResetAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTimeSinceResetAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTimeSinceResetAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTimeSinceResetAttribute(LongAttributeCallback callback) {
+      reportTimeSinceResetAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readPHYRateAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePHYRateAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPHYRateAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readFullDuplexAttribute(
         long chipClusterPtr, BooleanAttributeCallback callback);
 
+    private native void subscribeFullDuplexAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportFullDuplexAttribute(
+        long chipClusterPtr, BooleanAttributeCallback callback);
+
     private native void readPacketRxCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribePacketRxCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPacketRxCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readPacketTxCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribePacketTxCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPacketTxCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readTxErrCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTxErrCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTxErrCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readCollisionCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeCollisionCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCollisionCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readOverrunCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeOverrunCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportOverrunCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readCarrierDetectAttribute(
         long chipClusterPtr, BooleanAttributeCallback callback);
 
+    private native void subscribeCarrierDetectAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCarrierDetectAttribute(
+        long chipClusterPtr, BooleanAttributeCallback callback);
+
     private native void readTimeSinceResetAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTimeSinceResetAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTimeSinceResetAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class FixedLabelCluster extends BaseChipCluster {
@@ -3031,11 +4850,26 @@ public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readLabelListAttribute(
         long chipClusterPtr, LabelListAttributeCallback callback);
 
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class FlowMeasurementCluster extends BaseChipCluster {
@@ -3054,36 +4888,111 @@ public void readMeasuredValueAttribute(IntegerAttributeCallback callback) {
       readMeasuredValueAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMeasuredValueAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMeasuredValueAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMeasuredValueAttribute(IntegerAttributeCallback callback) {
+      reportMeasuredValueAttribute(chipClusterPtr, callback);
+    }
+
     public void readMinMeasuredValueAttribute(IntegerAttributeCallback callback) {
       readMinMeasuredValueAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMinMeasuredValueAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMinMeasuredValueAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMinMeasuredValueAttribute(IntegerAttributeCallback callback) {
+      reportMinMeasuredValueAttribute(chipClusterPtr, callback);
+    }
+
     public void readMaxMeasuredValueAttribute(IntegerAttributeCallback callback) {
       readMaxMeasuredValueAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMaxMeasuredValueAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMaxMeasuredValueAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMaxMeasuredValueAttribute(IntegerAttributeCallback callback) {
+      reportMaxMeasuredValueAttribute(chipClusterPtr, callback);
+    }
+
     public void readToleranceAttribute(IntegerAttributeCallback callback) {
       readToleranceAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeToleranceAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeToleranceAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportToleranceAttribute(IntegerAttributeCallback callback) {
+      reportToleranceAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readMeasuredValueAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMeasuredValueAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMeasuredValueAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMinMeasuredValueAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMinMeasuredValueAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMinMeasuredValueAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMaxMeasuredValueAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMaxMeasuredValueAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMaxMeasuredValueAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readToleranceAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeToleranceAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportToleranceAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class GeneralCommissioningCluster extends BaseChipCluster {
@@ -3187,6 +5096,15 @@ public void writeBreadcrumbAttribute(DefaultClusterCallback callback, long value
       writeBreadcrumbAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeBreadcrumbAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBreadcrumbAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportBreadcrumbAttribute(LongAttributeCallback callback) {
+      reportBreadcrumbAttribute(chipClusterPtr, callback);
+    }
+
     public void readBasicCommissioningInfoListAttribute(
         BasicCommissioningInfoListAttributeCallback callback) {
       readBasicCommissioningInfoListAttribute(chipClusterPtr, callback);
@@ -3196,17 +5114,38 @@ public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readBreadcrumbAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
     private native void writeBreadcrumbAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, long value);
 
+    private native void subscribeBreadcrumbAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBreadcrumbAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readBasicCommissioningInfoListAttribute(
         long chipClusterPtr, BasicCommissioningInfoListAttributeCallback callback);
 
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class GeneralDiagnosticsCluster extends BaseChipCluster {
@@ -3307,18 +5246,54 @@ public void readRebootCountAttribute(IntegerAttributeCallback callback) {
       readRebootCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRebootCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRebootCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRebootCountAttribute(IntegerAttributeCallback callback) {
+      reportRebootCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readUpTimeAttribute(LongAttributeCallback callback) {
       readUpTimeAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeUpTimeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeUpTimeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportUpTimeAttribute(LongAttributeCallback callback) {
+      reportUpTimeAttribute(chipClusterPtr, callback);
+    }
+
     public void readTotalOperationalHoursAttribute(LongAttributeCallback callback) {
       readTotalOperationalHoursAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTotalOperationalHoursAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTotalOperationalHoursAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTotalOperationalHoursAttribute(LongAttributeCallback callback) {
+      reportTotalOperationalHoursAttribute(chipClusterPtr, callback);
+    }
+
     public void readBootReasonsAttribute(IntegerAttributeCallback callback) {
       readBootReasonsAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeBootReasonsAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBootReasonsAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportBootReasonsAttribute(IntegerAttributeCallback callback) {
+      reportBootReasonsAttribute(chipClusterPtr, callback);
+    }
+
     public void readActiveHardwareFaultsAttribute(ActiveHardwareFaultsAttributeCallback callback) {
       readActiveHardwareFaultsAttribute(chipClusterPtr, callback);
     }
@@ -3335,20 +5310,52 @@ public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readNetworkInterfacesAttribute(
         long chipClusterPtr, NetworkInterfacesAttributeCallback callback);
 
     private native void readRebootCountAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeRebootCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRebootCountAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readUpTimeAttribute(long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeUpTimeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportUpTimeAttribute(long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readTotalOperationalHoursAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTotalOperationalHoursAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTotalOperationalHoursAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readBootReasonsAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeBootReasonsAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBootReasonsAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readActiveHardwareFaultsAttribute(
         long chipClusterPtr, ActiveHardwareFaultsAttributeCallback callback);
 
@@ -3360,6 +5367,12 @@ private native void readActiveNetworkFaultsAttribute(
 
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class GroupKeyManagementCluster extends BaseChipCluster {
@@ -3475,6 +5488,15 @@ public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readGroupsAttribute(long chipClusterPtr, GroupsAttributeCallback callback);
 
     private native void readGroupKeysAttribute(
@@ -3482,6 +5504,12 @@ private native void readGroupKeysAttribute(
 
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class GroupsCluster extends BaseChipCluster {
@@ -3569,15 +5597,45 @@ public void readNameSupportAttribute(IntegerAttributeCallback callback) {
       readNameSupportAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeNameSupportAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNameSupportAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNameSupportAttribute(IntegerAttributeCallback callback) {
+      reportNameSupportAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readNameSupportAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeNameSupportAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNameSupportAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class IdentifyCluster extends BaseChipCluster {
@@ -3630,25 +5688,70 @@ public void writeIdentifyTimeAttribute(DefaultClusterCallback callback, int valu
       writeIdentifyTimeAttribute(chipClusterPtr, callback, value);
     }
 
-    public void readIdentifyTypeAttribute(IntegerAttributeCallback callback) {
-      readIdentifyTypeAttribute(chipClusterPtr, callback);
+    public void subscribeIdentifyTimeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeIdentifyTimeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
     }
 
-    public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
-      readClusterRevisionAttribute(chipClusterPtr, callback);
+    public void reportIdentifyTimeAttribute(IntegerAttributeCallback callback) {
+      reportIdentifyTimeAttribute(chipClusterPtr, callback);
     }
 
-    private native void readIdentifyTimeAttribute(
+    public void readIdentifyTypeAttribute(IntegerAttributeCallback callback) {
+      readIdentifyTypeAttribute(chipClusterPtr, callback);
+    }
+
+    public void subscribeIdentifyTypeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeIdentifyTypeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportIdentifyTypeAttribute(IntegerAttributeCallback callback) {
+      reportIdentifyTypeAttribute(chipClusterPtr, callback);
+    }
+
+    public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      readClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
+    private native void readIdentifyTimeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeIdentifyTimeAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeIdentifyTimeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportIdentifyTimeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readIdentifyTypeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeIdentifyTypeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportIdentifyTypeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class IlluminanceMeasurementCluster extends BaseChipCluster {
@@ -3680,22 +5783,67 @@ public void readMinMeasuredValueAttribute(IntegerAttributeCallback callback) {
       readMinMeasuredValueAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMinMeasuredValueAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMinMeasuredValueAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMinMeasuredValueAttribute(IntegerAttributeCallback callback) {
+      reportMinMeasuredValueAttribute(chipClusterPtr, callback);
+    }
+
     public void readMaxMeasuredValueAttribute(IntegerAttributeCallback callback) {
       readMaxMeasuredValueAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMaxMeasuredValueAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMaxMeasuredValueAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMaxMeasuredValueAttribute(IntegerAttributeCallback callback) {
+      reportMaxMeasuredValueAttribute(chipClusterPtr, callback);
+    }
+
     public void readToleranceAttribute(IntegerAttributeCallback callback) {
       readToleranceAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeToleranceAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeToleranceAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportToleranceAttribute(IntegerAttributeCallback callback) {
+      reportToleranceAttribute(chipClusterPtr, callback);
+    }
+
     public void readLightSensorTypeAttribute(IntegerAttributeCallback callback) {
       readLightSensorTypeAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeLightSensorTypeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeLightSensorTypeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportLightSensorTypeAttribute(IntegerAttributeCallback callback) {
+      reportLightSensorTypeAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readMeasuredValueAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -3708,17 +5856,47 @@ private native void reportMeasuredValueAttribute(
     private native void readMinMeasuredValueAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMinMeasuredValueAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMinMeasuredValueAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMaxMeasuredValueAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMaxMeasuredValueAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMaxMeasuredValueAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readToleranceAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeToleranceAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportToleranceAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readLightSensorTypeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeLightSensorTypeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportLightSensorTypeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class KeypadInputCluster extends BaseChipCluster {
@@ -3750,8 +5928,23 @@ public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class LevelControlCluster extends BaseChipCluster {
@@ -3886,26 +6079,80 @@ public void readRemainingTimeAttribute(IntegerAttributeCallback callback) {
       readRemainingTimeAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRemainingTimeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRemainingTimeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRemainingTimeAttribute(IntegerAttributeCallback callback) {
+      reportRemainingTimeAttribute(chipClusterPtr, callback);
+    }
+
     public void readMinLevelAttribute(IntegerAttributeCallback callback) {
       readMinLevelAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMinLevelAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMinLevelAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMinLevelAttribute(IntegerAttributeCallback callback) {
+      reportMinLevelAttribute(chipClusterPtr, callback);
+    }
+
     public void readMaxLevelAttribute(IntegerAttributeCallback callback) {
       readMaxLevelAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMaxLevelAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMaxLevelAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMaxLevelAttribute(IntegerAttributeCallback callback) {
+      reportMaxLevelAttribute(chipClusterPtr, callback);
+    }
+
     public void readCurrentFrequencyAttribute(IntegerAttributeCallback callback) {
       readCurrentFrequencyAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCurrentFrequencyAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCurrentFrequencyAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCurrentFrequencyAttribute(IntegerAttributeCallback callback) {
+      reportCurrentFrequencyAttribute(chipClusterPtr, callback);
+    }
+
     public void readMinFrequencyAttribute(IntegerAttributeCallback callback) {
       readMinFrequencyAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMinFrequencyAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMinFrequencyAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMinFrequencyAttribute(IntegerAttributeCallback callback) {
+      reportMinFrequencyAttribute(chipClusterPtr, callback);
+    }
+
     public void readMaxFrequencyAttribute(IntegerAttributeCallback callback) {
       readMaxFrequencyAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMaxFrequencyAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMaxFrequencyAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMaxFrequencyAttribute(IntegerAttributeCallback callback) {
+      reportMaxFrequencyAttribute(chipClusterPtr, callback);
+    }
+
     public void readOptionsAttribute(IntegerAttributeCallback callback) {
       readOptionsAttribute(chipClusterPtr, callback);
     }
@@ -3914,6 +6161,15 @@ public void writeOptionsAttribute(DefaultClusterCallback callback, int value) {
       writeOptionsAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeOptionsAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeOptionsAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportOptionsAttribute(IntegerAttributeCallback callback) {
+      reportOptionsAttribute(chipClusterPtr, callback);
+    }
+
     public void readOnOffTransitionTimeAttribute(IntegerAttributeCallback callback) {
       readOnOffTransitionTimeAttribute(chipClusterPtr, callback);
     }
@@ -3922,6 +6178,15 @@ public void writeOnOffTransitionTimeAttribute(DefaultClusterCallback callback, i
       writeOnOffTransitionTimeAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeOnOffTransitionTimeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeOnOffTransitionTimeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportOnOffTransitionTimeAttribute(IntegerAttributeCallback callback) {
+      reportOnOffTransitionTimeAttribute(chipClusterPtr, callback);
+    }
+
     public void readOnLevelAttribute(IntegerAttributeCallback callback) {
       readOnLevelAttribute(chipClusterPtr, callback);
     }
@@ -3930,6 +6195,15 @@ public void writeOnLevelAttribute(DefaultClusterCallback callback, int value) {
       writeOnLevelAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeOnLevelAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeOnLevelAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportOnLevelAttribute(IntegerAttributeCallback callback) {
+      reportOnLevelAttribute(chipClusterPtr, callback);
+    }
+
     public void readOnTransitionTimeAttribute(IntegerAttributeCallback callback) {
       readOnTransitionTimeAttribute(chipClusterPtr, callback);
     }
@@ -3938,6 +6212,15 @@ public void writeOnTransitionTimeAttribute(DefaultClusterCallback callback, int
       writeOnTransitionTimeAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeOnTransitionTimeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeOnTransitionTimeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportOnTransitionTimeAttribute(IntegerAttributeCallback callback) {
+      reportOnTransitionTimeAttribute(chipClusterPtr, callback);
+    }
+
     public void readOffTransitionTimeAttribute(IntegerAttributeCallback callback) {
       readOffTransitionTimeAttribute(chipClusterPtr, callback);
     }
@@ -3946,6 +6229,15 @@ public void writeOffTransitionTimeAttribute(DefaultClusterCallback callback, int
       writeOffTransitionTimeAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeOffTransitionTimeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeOffTransitionTimeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportOffTransitionTimeAttribute(IntegerAttributeCallback callback) {
+      reportOffTransitionTimeAttribute(chipClusterPtr, callback);
+    }
+
     public void readDefaultMoveRateAttribute(IntegerAttributeCallback callback) {
       readDefaultMoveRateAttribute(chipClusterPtr, callback);
     }
@@ -3954,6 +6246,15 @@ public void writeDefaultMoveRateAttribute(DefaultClusterCallback callback, int v
       writeDefaultMoveRateAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeDefaultMoveRateAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeDefaultMoveRateAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportDefaultMoveRateAttribute(IntegerAttributeCallback callback) {
+      reportDefaultMoveRateAttribute(chipClusterPtr, callback);
+    }
+
     public void readStartUpCurrentLevelAttribute(IntegerAttributeCallback callback) {
       readStartUpCurrentLevelAttribute(chipClusterPtr, callback);
     }
@@ -3962,10 +6263,28 @@ public void writeStartUpCurrentLevelAttribute(DefaultClusterCallback callback, i
       writeStartUpCurrentLevelAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeStartUpCurrentLevelAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeStartUpCurrentLevelAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportStartUpCurrentLevelAttribute(IntegerAttributeCallback callback) {
+      reportStartUpCurrentLevelAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readCurrentLevelAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -3978,65 +6297,149 @@ private native void reportCurrentLevelAttribute(
     private native void readRemainingTimeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeRemainingTimeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRemainingTimeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMinLevelAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMinLevelAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMinLevelAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMaxLevelAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMaxLevelAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMaxLevelAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readCurrentFrequencyAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeCurrentFrequencyAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCurrentFrequencyAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMinFrequencyAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMinFrequencyAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMinFrequencyAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMaxFrequencyAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMaxFrequencyAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMaxFrequencyAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readOptionsAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeOptionsAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeOptionsAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportOptionsAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readOnOffTransitionTimeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeOnOffTransitionTimeAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeOnOffTransitionTimeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportOnOffTransitionTimeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readOnLevelAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeOnLevelAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeOnLevelAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportOnLevelAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readOnTransitionTimeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeOnTransitionTimeAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeOnTransitionTimeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportOnTransitionTimeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readOffTransitionTimeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeOffTransitionTimeAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeOffTransitionTimeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportOffTransitionTimeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readDefaultMoveRateAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeDefaultMoveRateAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeDefaultMoveRateAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportDefaultMoveRateAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readStartUpCurrentLevelAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeStartUpCurrentLevelAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeStartUpCurrentLevelAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportStartUpCurrentLevelAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class LowPowerCluster extends BaseChipCluster {
@@ -4061,8 +6464,23 @@ public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class MediaInputCluster extends BaseChipCluster {
@@ -4154,18 +6572,48 @@ public void readCurrentMediaInputAttribute(IntegerAttributeCallback callback) {
       readCurrentMediaInputAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCurrentMediaInputAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCurrentMediaInputAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCurrentMediaInputAttribute(IntegerAttributeCallback callback) {
+      reportCurrentMediaInputAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readMediaInputListAttribute(
         long chipClusterPtr, MediaInputListAttributeCallback callback);
 
     private native void readCurrentMediaInputAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeCurrentMediaInputAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCurrentMediaInputAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class MediaPlaybackCluster extends BaseChipCluster {
@@ -4327,61 +6775,196 @@ public void readPlaybackStateAttribute(IntegerAttributeCallback callback) {
       readPlaybackStateAttribute(chipClusterPtr, callback);
     }
 
-    public void readStartTimeAttribute(LongAttributeCallback callback) {
-      readStartTimeAttribute(chipClusterPtr, callback);
+    public void subscribePlaybackStateAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePlaybackStateAttribute(chipClusterPtr, callback, minInterval, maxInterval);
     }
 
-    public void readDurationAttribute(LongAttributeCallback callback) {
-      readDurationAttribute(chipClusterPtr, callback);
+    public void reportPlaybackStateAttribute(IntegerAttributeCallback callback) {
+      reportPlaybackStateAttribute(chipClusterPtr, callback);
     }
 
-    public void readPositionUpdatedAtAttribute(LongAttributeCallback callback) {
-      readPositionUpdatedAtAttribute(chipClusterPtr, callback);
+    public void readStartTimeAttribute(LongAttributeCallback callback) {
+      readStartTimeAttribute(chipClusterPtr, callback);
     }
 
-    public void readPositionAttribute(LongAttributeCallback callback) {
-      readPositionAttribute(chipClusterPtr, callback);
+    public void subscribeStartTimeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeStartTimeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportStartTimeAttribute(LongAttributeCallback callback) {
+      reportStartTimeAttribute(chipClusterPtr, callback);
+    }
+
+    public void readDurationAttribute(LongAttributeCallback callback) {
+      readDurationAttribute(chipClusterPtr, callback);
+    }
+
+    public void subscribeDurationAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeDurationAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportDurationAttribute(LongAttributeCallback callback) {
+      reportDurationAttribute(chipClusterPtr, callback);
+    }
+
+    public void readPositionUpdatedAtAttribute(LongAttributeCallback callback) {
+      readPositionUpdatedAtAttribute(chipClusterPtr, callback);
+    }
+
+    public void subscribePositionUpdatedAtAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePositionUpdatedAtAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPositionUpdatedAtAttribute(LongAttributeCallback callback) {
+      reportPositionUpdatedAtAttribute(chipClusterPtr, callback);
+    }
+
+    public void readPositionAttribute(LongAttributeCallback callback) {
+      readPositionAttribute(chipClusterPtr, callback);
+    }
+
+    public void subscribePositionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePositionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPositionAttribute(LongAttributeCallback callback) {
+      reportPositionAttribute(chipClusterPtr, callback);
     }
 
     public void readPlaybackSpeedAttribute(LongAttributeCallback callback) {
       readPlaybackSpeedAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePlaybackSpeedAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePlaybackSpeedAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPlaybackSpeedAttribute(LongAttributeCallback callback) {
+      reportPlaybackSpeedAttribute(chipClusterPtr, callback);
+    }
+
     public void readSeekRangeEndAttribute(LongAttributeCallback callback) {
       readSeekRangeEndAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeSeekRangeEndAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeSeekRangeEndAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportSeekRangeEndAttribute(LongAttributeCallback callback) {
+      reportSeekRangeEndAttribute(chipClusterPtr, callback);
+    }
+
     public void readSeekRangeStartAttribute(LongAttributeCallback callback) {
       readSeekRangeStartAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeSeekRangeStartAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeSeekRangeStartAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportSeekRangeStartAttribute(LongAttributeCallback callback) {
+      reportSeekRangeStartAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readPlaybackStateAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePlaybackStateAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPlaybackStateAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readStartTimeAttribute(long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeStartTimeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportStartTimeAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readDurationAttribute(long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeDurationAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportDurationAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readPositionUpdatedAtAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribePositionUpdatedAtAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPositionUpdatedAtAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readPositionAttribute(long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribePositionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPositionAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readPlaybackSpeedAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribePlaybackSpeedAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPlaybackSpeedAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readSeekRangeEndAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeSeekRangeEndAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportSeekRangeEndAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readSeekRangeStartAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeSeekRangeStartAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportSeekRangeStartAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class ModeSelectCluster extends BaseChipCluster {
@@ -4464,18 +7047,54 @@ public void writeOnModeAttribute(DefaultClusterCallback callback, int value) {
       writeOnModeAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeOnModeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeOnModeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportOnModeAttribute(IntegerAttributeCallback callback) {
+      reportOnModeAttribute(chipClusterPtr, callback);
+    }
+
     public void readStartUpModeAttribute(IntegerAttributeCallback callback) {
       readStartUpModeAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeStartUpModeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeStartUpModeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportStartUpModeAttribute(IntegerAttributeCallback callback) {
+      reportStartUpModeAttribute(chipClusterPtr, callback);
+    }
+
     public void readDescriptionAttribute(CharStringAttributeCallback callback) {
       readDescriptionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeDescriptionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeDescriptionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportDescriptionAttribute(CharStringAttributeCallback callback) {
+      reportDescriptionAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readCurrentModeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -4493,14 +7112,38 @@ private native void readSupportedModesAttribute(
     private native void writeOnModeAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeOnModeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportOnModeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readStartUpModeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeStartUpModeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportStartUpModeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readDescriptionAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
+    private native void subscribeDescriptionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportDescriptionAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class NetworkCommissioningCluster extends BaseChipCluster {
@@ -4687,15 +7330,45 @@ public void readFeatureMapAttribute(LongAttributeCallback callback) {
       readFeatureMapAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeFeatureMapAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeFeatureMapAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportFeatureMapAttribute(LongAttributeCallback callback) {
+      reportFeatureMapAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readFeatureMapAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeFeatureMapAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportFeatureMapAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class OtaSoftwareUpdateProviderCluster extends BaseChipCluster {
@@ -4791,8 +7464,23 @@ public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class OtaSoftwareUpdateRequestorCluster extends BaseChipCluster {
@@ -4838,25 +7526,70 @@ public void writeDefaultOtaProviderAttribute(DefaultClusterCallback callback, by
       writeDefaultOtaProviderAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeDefaultOtaProviderAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeDefaultOtaProviderAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportDefaultOtaProviderAttribute(OctetStringAttributeCallback callback) {
+      reportDefaultOtaProviderAttribute(chipClusterPtr, callback);
+    }
+
     public void readUpdatePossibleAttribute(BooleanAttributeCallback callback) {
       readUpdatePossibleAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeUpdatePossibleAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeUpdatePossibleAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportUpdatePossibleAttribute(BooleanAttributeCallback callback) {
+      reportUpdatePossibleAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readDefaultOtaProviderAttribute(
         long chipClusterPtr, OctetStringAttributeCallback callback);
 
     private native void writeDefaultOtaProviderAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, byte[] value);
 
+    private native void subscribeDefaultOtaProviderAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportDefaultOtaProviderAttribute(
+        long chipClusterPtr, OctetStringAttributeCallback callback);
+
     private native void readUpdatePossibleAttribute(
         long chipClusterPtr, BooleanAttributeCallback callback);
 
+    private native void subscribeUpdatePossibleAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportUpdatePossibleAttribute(
+        long chipClusterPtr, BooleanAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class OccupancySensingCluster extends BaseChipCluster {
@@ -4888,14 +7621,42 @@ public void readOccupancySensorTypeAttribute(IntegerAttributeCallback callback)
       readOccupancySensorTypeAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeOccupancySensorTypeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeOccupancySensorTypeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportOccupancySensorTypeAttribute(IntegerAttributeCallback callback) {
+      reportOccupancySensorTypeAttribute(chipClusterPtr, callback);
+    }
+
     public void readOccupancySensorTypeBitmapAttribute(IntegerAttributeCallback callback) {
       readOccupancySensorTypeBitmapAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeOccupancySensorTypeBitmapAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeOccupancySensorTypeBitmapAttribute(
+          chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportOccupancySensorTypeBitmapAttribute(IntegerAttributeCallback callback) {
+      reportOccupancySensorTypeBitmapAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readOccupancyAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -4908,11 +7669,29 @@ private native void reportOccupancyAttribute(
     private native void readOccupancySensorTypeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeOccupancySensorTypeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportOccupancySensorTypeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readOccupancySensorTypeBitmapAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeOccupancySensorTypeBitmapAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportOccupancySensorTypeBitmapAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class OnOffCluster extends BaseChipCluster {
@@ -4995,6 +7774,15 @@ public void readGlobalSceneControlAttribute(BooleanAttributeCallback callback) {
       readGlobalSceneControlAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeGlobalSceneControlAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeGlobalSceneControlAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportGlobalSceneControlAttribute(BooleanAttributeCallback callback) {
+      reportGlobalSceneControlAttribute(chipClusterPtr, callback);
+    }
+
     public void readOnTimeAttribute(IntegerAttributeCallback callback) {
       readOnTimeAttribute(chipClusterPtr, callback);
     }
@@ -5003,6 +7791,15 @@ public void writeOnTimeAttribute(DefaultClusterCallback callback, int value) {
       writeOnTimeAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeOnTimeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeOnTimeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportOnTimeAttribute(IntegerAttributeCallback callback) {
+      reportOnTimeAttribute(chipClusterPtr, callback);
+    }
+
     public void readOffWaitTimeAttribute(IntegerAttributeCallback callback) {
       readOffWaitTimeAttribute(chipClusterPtr, callback);
     }
@@ -5011,6 +7808,15 @@ public void writeOffWaitTimeAttribute(DefaultClusterCallback callback, int value
       writeOffWaitTimeAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeOffWaitTimeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeOffWaitTimeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportOffWaitTimeAttribute(IntegerAttributeCallback callback) {
+      reportOffWaitTimeAttribute(chipClusterPtr, callback);
+    }
+
     public void readStartUpOnOffAttribute(IntegerAttributeCallback callback) {
       readStartUpOnOffAttribute(chipClusterPtr, callback);
     }
@@ -5019,14 +7825,41 @@ public void writeStartUpOnOffAttribute(DefaultClusterCallback callback, int valu
       writeStartUpOnOffAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeStartUpOnOffAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeStartUpOnOffAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportStartUpOnOffAttribute(IntegerAttributeCallback callback) {
+      reportStartUpOnOffAttribute(chipClusterPtr, callback);
+    }
+
     public void readFeatureMapAttribute(LongAttributeCallback callback) {
       readFeatureMapAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeFeatureMapAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeFeatureMapAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportFeatureMapAttribute(LongAttributeCallback callback) {
+      reportFeatureMapAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readOnOffAttribute(long chipClusterPtr, BooleanAttributeCallback callback);
 
     private native void subscribeOnOffAttribute(
@@ -5038,32 +7871,68 @@ private native void reportOnOffAttribute(
     private native void readGlobalSceneControlAttribute(
         long chipClusterPtr, BooleanAttributeCallback callback);
 
+    private native void subscribeGlobalSceneControlAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportGlobalSceneControlAttribute(
+        long chipClusterPtr, BooleanAttributeCallback callback);
+
     private native void readOnTimeAttribute(long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeOnTimeAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeOnTimeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportOnTimeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readOffWaitTimeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeOffWaitTimeAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeOffWaitTimeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportOffWaitTimeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readStartUpOnOffAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeStartUpOnOffAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeStartUpOnOffAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportStartUpOnOffAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readFeatureMapAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeFeatureMapAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportFeatureMapAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
-  }
 
-  public static class OnOffSwitchConfigurationCluster extends BaseChipCluster {
-    public OnOffSwitchConfigurationCluster(long devicePtr, int endpointId) {
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+  }
+
+  public static class OnOffSwitchConfigurationCluster extends BaseChipCluster {
+    public OnOffSwitchConfigurationCluster(long devicePtr, int endpointId) {
       super(devicePtr, endpointId);
     }
 
@@ -5078,6 +7947,15 @@ public void readSwitchTypeAttribute(IntegerAttributeCallback callback) {
       readSwitchTypeAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeSwitchTypeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeSwitchTypeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportSwitchTypeAttribute(IntegerAttributeCallback callback) {
+      reportSwitchTypeAttribute(chipClusterPtr, callback);
+    }
+
     public void readSwitchActionsAttribute(IntegerAttributeCallback callback) {
       readSwitchActionsAttribute(chipClusterPtr, callback);
     }
@@ -5086,21 +7964,57 @@ public void writeSwitchActionsAttribute(DefaultClusterCallback callback, int val
       writeSwitchActionsAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeSwitchActionsAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeSwitchActionsAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportSwitchActionsAttribute(IntegerAttributeCallback callback) {
+      reportSwitchActionsAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readSwitchTypeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeSwitchTypeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportSwitchTypeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readSwitchActionsAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeSwitchActionsAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeSwitchActionsAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportSwitchActionsAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class OperationalCredentialsCluster extends BaseChipCluster {
@@ -5294,10 +8208,28 @@ public void readSupportedFabricsAttribute(IntegerAttributeCallback callback) {
       readSupportedFabricsAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeSupportedFabricsAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeSupportedFabricsAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportSupportedFabricsAttribute(IntegerAttributeCallback callback) {
+      reportSupportedFabricsAttribute(chipClusterPtr, callback);
+    }
+
     public void readCommissionedFabricsAttribute(IntegerAttributeCallback callback) {
       readCommissionedFabricsAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCommissionedFabricsAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCommissionedFabricsAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCommissionedFabricsAttribute(IntegerAttributeCallback callback) {
+      reportCommissionedFabricsAttribute(chipClusterPtr, callback);
+    }
+
     public void readTrustedRootCertificatesAttribute(
         TrustedRootCertificatesAttributeCallback callback) {
       readTrustedRootCertificatesAttribute(chipClusterPtr, callback);
@@ -5307,27 +8239,69 @@ public void readCurrentFabricIndexAttribute(IntegerAttributeCallback callback) {
       readCurrentFabricIndexAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCurrentFabricIndexAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCurrentFabricIndexAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCurrentFabricIndexAttribute(IntegerAttributeCallback callback) {
+      reportCurrentFabricIndexAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readFabricsListAttribute(
         long chipClusterPtr, FabricsListAttributeCallback callback);
 
     private native void readSupportedFabricsAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeSupportedFabricsAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportSupportedFabricsAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readCommissionedFabricsAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeCommissionedFabricsAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCommissionedFabricsAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readTrustedRootCertificatesAttribute(
         long chipClusterPtr, TrustedRootCertificatesAttributeCallback callback);
 
     private native void readCurrentFabricIndexAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeCurrentFabricIndexAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCurrentFabricIndexAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class PowerSourceCluster extends BaseChipCluster {
@@ -5352,30 +8326,93 @@ public void readStatusAttribute(IntegerAttributeCallback callback) {
       readStatusAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeStatusAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeStatusAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportStatusAttribute(IntegerAttributeCallback callback) {
+      reportStatusAttribute(chipClusterPtr, callback);
+    }
+
     public void readOrderAttribute(IntegerAttributeCallback callback) {
       readOrderAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeOrderAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeOrderAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportOrderAttribute(IntegerAttributeCallback callback) {
+      reportOrderAttribute(chipClusterPtr, callback);
+    }
+
     public void readDescriptionAttribute(CharStringAttributeCallback callback) {
       readDescriptionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeDescriptionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeDescriptionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportDescriptionAttribute(CharStringAttributeCallback callback) {
+      reportDescriptionAttribute(chipClusterPtr, callback);
+    }
+
     public void readBatteryVoltageAttribute(LongAttributeCallback callback) {
       readBatteryVoltageAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeBatteryVoltageAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBatteryVoltageAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportBatteryVoltageAttribute(LongAttributeCallback callback) {
+      reportBatteryVoltageAttribute(chipClusterPtr, callback);
+    }
+
     public void readBatteryPercentRemainingAttribute(IntegerAttributeCallback callback) {
       readBatteryPercentRemainingAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeBatteryPercentRemainingAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBatteryPercentRemainingAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportBatteryPercentRemainingAttribute(IntegerAttributeCallback callback) {
+      reportBatteryPercentRemainingAttribute(chipClusterPtr, callback);
+    }
+
     public void readBatteryTimeRemainingAttribute(LongAttributeCallback callback) {
       readBatteryTimeRemainingAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeBatteryTimeRemainingAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBatteryTimeRemainingAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportBatteryTimeRemainingAttribute(LongAttributeCallback callback) {
+      reportBatteryTimeRemainingAttribute(chipClusterPtr, callback);
+    }
+
     public void readBatteryChargeLevelAttribute(IntegerAttributeCallback callback) {
       readBatteryChargeLevelAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeBatteryChargeLevelAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBatteryChargeLevelAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportBatteryChargeLevelAttribute(IntegerAttributeCallback callback) {
+      reportBatteryChargeLevelAttribute(chipClusterPtr, callback);
+    }
+
     public void readActiveBatteryFaultsAttribute(ActiveBatteryFaultsAttributeCallback callback) {
       readActiveBatteryFaultsAttribute(chipClusterPtr, callback);
     }
@@ -5384,44 +8421,131 @@ public void readBatteryChargeStateAttribute(IntegerAttributeCallback callback) {
       readBatteryChargeStateAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeBatteryChargeStateAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBatteryChargeStateAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportBatteryChargeStateAttribute(IntegerAttributeCallback callback) {
+      reportBatteryChargeStateAttribute(chipClusterPtr, callback);
+    }
+
     public void readFeatureMapAttribute(LongAttributeCallback callback) {
       readFeatureMapAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeFeatureMapAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeFeatureMapAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportFeatureMapAttribute(LongAttributeCallback callback) {
+      reportFeatureMapAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readStatusAttribute(long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeStatusAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportStatusAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readOrderAttribute(long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeOrderAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportOrderAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readDescriptionAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
+    private native void subscribeDescriptionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportDescriptionAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readBatteryVoltageAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeBatteryVoltageAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBatteryVoltageAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readBatteryPercentRemainingAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeBatteryPercentRemainingAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBatteryPercentRemainingAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readBatteryTimeRemainingAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeBatteryTimeRemainingAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBatteryTimeRemainingAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readBatteryChargeLevelAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeBatteryChargeLevelAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBatteryChargeLevelAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readActiveBatteryFaultsAttribute(
         long chipClusterPtr, ActiveBatteryFaultsAttributeCallback callback);
 
     private native void readBatteryChargeStateAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeBatteryChargeStateAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBatteryChargeStateAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readFeatureMapAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeFeatureMapAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportFeatureMapAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class PressureMeasurementCluster extends BaseChipCluster {
@@ -5453,14 +8577,41 @@ public void readMinMeasuredValueAttribute(IntegerAttributeCallback callback) {
       readMinMeasuredValueAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMinMeasuredValueAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMinMeasuredValueAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMinMeasuredValueAttribute(IntegerAttributeCallback callback) {
+      reportMinMeasuredValueAttribute(chipClusterPtr, callback);
+    }
+
     public void readMaxMeasuredValueAttribute(IntegerAttributeCallback callback) {
       readMaxMeasuredValueAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMaxMeasuredValueAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMaxMeasuredValueAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMaxMeasuredValueAttribute(IntegerAttributeCallback callback) {
+      reportMaxMeasuredValueAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readMeasuredValueAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -5473,11 +8624,29 @@ private native void reportMeasuredValueAttribute(
     private native void readMinMeasuredValueAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMinMeasuredValueAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMinMeasuredValueAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMaxMeasuredValueAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMaxMeasuredValueAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMaxMeasuredValueAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class PumpConfigurationAndControlCluster extends BaseChipCluster {
@@ -5496,54 +8665,171 @@ public void readMaxPressureAttribute(IntegerAttributeCallback callback) {
       readMaxPressureAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMaxPressureAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMaxPressureAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMaxPressureAttribute(IntegerAttributeCallback callback) {
+      reportMaxPressureAttribute(chipClusterPtr, callback);
+    }
+
     public void readMaxSpeedAttribute(IntegerAttributeCallback callback) {
       readMaxSpeedAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMaxSpeedAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMaxSpeedAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMaxSpeedAttribute(IntegerAttributeCallback callback) {
+      reportMaxSpeedAttribute(chipClusterPtr, callback);
+    }
+
     public void readMaxFlowAttribute(IntegerAttributeCallback callback) {
       readMaxFlowAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMaxFlowAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMaxFlowAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMaxFlowAttribute(IntegerAttributeCallback callback) {
+      reportMaxFlowAttribute(chipClusterPtr, callback);
+    }
+
     public void readMinConstPressureAttribute(IntegerAttributeCallback callback) {
       readMinConstPressureAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMinConstPressureAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMinConstPressureAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMinConstPressureAttribute(IntegerAttributeCallback callback) {
+      reportMinConstPressureAttribute(chipClusterPtr, callback);
+    }
+
     public void readMaxConstPressureAttribute(IntegerAttributeCallback callback) {
       readMaxConstPressureAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMaxConstPressureAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMaxConstPressureAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMaxConstPressureAttribute(IntegerAttributeCallback callback) {
+      reportMaxConstPressureAttribute(chipClusterPtr, callback);
+    }
+
     public void readMinCompPressureAttribute(IntegerAttributeCallback callback) {
       readMinCompPressureAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMinCompPressureAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMinCompPressureAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMinCompPressureAttribute(IntegerAttributeCallback callback) {
+      reportMinCompPressureAttribute(chipClusterPtr, callback);
+    }
+
     public void readMaxCompPressureAttribute(IntegerAttributeCallback callback) {
       readMaxCompPressureAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMaxCompPressureAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMaxCompPressureAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMaxCompPressureAttribute(IntegerAttributeCallback callback) {
+      reportMaxCompPressureAttribute(chipClusterPtr, callback);
+    }
+
     public void readMinConstSpeedAttribute(IntegerAttributeCallback callback) {
       readMinConstSpeedAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMinConstSpeedAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMinConstSpeedAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMinConstSpeedAttribute(IntegerAttributeCallback callback) {
+      reportMinConstSpeedAttribute(chipClusterPtr, callback);
+    }
+
     public void readMaxConstSpeedAttribute(IntegerAttributeCallback callback) {
       readMaxConstSpeedAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMaxConstSpeedAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMaxConstSpeedAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMaxConstSpeedAttribute(IntegerAttributeCallback callback) {
+      reportMaxConstSpeedAttribute(chipClusterPtr, callback);
+    }
+
     public void readMinConstFlowAttribute(IntegerAttributeCallback callback) {
       readMinConstFlowAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMinConstFlowAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMinConstFlowAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMinConstFlowAttribute(IntegerAttributeCallback callback) {
+      reportMinConstFlowAttribute(chipClusterPtr, callback);
+    }
+
     public void readMaxConstFlowAttribute(IntegerAttributeCallback callback) {
       readMaxConstFlowAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMaxConstFlowAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMaxConstFlowAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMaxConstFlowAttribute(IntegerAttributeCallback callback) {
+      reportMaxConstFlowAttribute(chipClusterPtr, callback);
+    }
+
     public void readMinConstTempAttribute(IntegerAttributeCallback callback) {
       readMinConstTempAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMinConstTempAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMinConstTempAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMinConstTempAttribute(IntegerAttributeCallback callback) {
+      reportMinConstTempAttribute(chipClusterPtr, callback);
+    }
+
     public void readMaxConstTempAttribute(IntegerAttributeCallback callback) {
       readMaxConstTempAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMaxConstTempAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMaxConstTempAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMaxConstTempAttribute(IntegerAttributeCallback callback) {
+      reportMaxConstTempAttribute(chipClusterPtr, callback);
+    }
+
     public void readPumpStatusAttribute(IntegerAttributeCallback callback) {
       readPumpStatusAttribute(chipClusterPtr, callback);
     }
@@ -5561,11 +8847,29 @@ public void readEffectiveOperationModeAttribute(IntegerAttributeCallback callbac
       readEffectiveOperationModeAttribute(chipClusterPtr, callback);
     }
 
-    public void readEffectiveControlModeAttribute(IntegerAttributeCallback callback) {
-      readEffectiveControlModeAttribute(chipClusterPtr, callback);
+    public void subscribeEffectiveOperationModeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeEffectiveOperationModeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
     }
 
-    public void readCapacityAttribute(IntegerAttributeCallback callback) {
+    public void reportEffectiveOperationModeAttribute(IntegerAttributeCallback callback) {
+      reportEffectiveOperationModeAttribute(chipClusterPtr, callback);
+    }
+
+    public void readEffectiveControlModeAttribute(IntegerAttributeCallback callback) {
+      readEffectiveControlModeAttribute(chipClusterPtr, callback);
+    }
+
+    public void subscribeEffectiveControlModeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeEffectiveControlModeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportEffectiveControlModeAttribute(IntegerAttributeCallback callback) {
+      reportEffectiveControlModeAttribute(chipClusterPtr, callback);
+    }
+
+    public void readCapacityAttribute(IntegerAttributeCallback callback) {
       readCapacityAttribute(chipClusterPtr, callback);
     }
 
@@ -5582,10 +8886,28 @@ public void readSpeedAttribute(IntegerAttributeCallback callback) {
       readSpeedAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeSpeedAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeSpeedAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportSpeedAttribute(IntegerAttributeCallback callback) {
+      reportSpeedAttribute(chipClusterPtr, callback);
+    }
+
     public void readLifetimeEnergyConsumedAttribute(LongAttributeCallback callback) {
       readLifetimeEnergyConsumedAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeLifetimeEnergyConsumedAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeLifetimeEnergyConsumedAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportLifetimeEnergyConsumedAttribute(LongAttributeCallback callback) {
+      reportLifetimeEnergyConsumedAttribute(chipClusterPtr, callback);
+    }
+
     public void readOperationModeAttribute(IntegerAttributeCallback callback) {
       readOperationModeAttribute(chipClusterPtr, callback);
     }
@@ -5594,6 +8916,15 @@ public void writeOperationModeAttribute(DefaultClusterCallback callback, int val
       writeOperationModeAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeOperationModeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeOperationModeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportOperationModeAttribute(IntegerAttributeCallback callback) {
+      reportOperationModeAttribute(chipClusterPtr, callback);
+    }
+
     public void readControlModeAttribute(IntegerAttributeCallback callback) {
       readControlModeAttribute(chipClusterPtr, callback);
     }
@@ -5602,57 +8933,171 @@ public void writeControlModeAttribute(DefaultClusterCallback callback, int value
       writeControlModeAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeControlModeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeControlModeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportControlModeAttribute(IntegerAttributeCallback callback) {
+      reportControlModeAttribute(chipClusterPtr, callback);
+    }
+
     public void readAlarmMaskAttribute(IntegerAttributeCallback callback) {
       readAlarmMaskAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeAlarmMaskAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeAlarmMaskAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportAlarmMaskAttribute(IntegerAttributeCallback callback) {
+      reportAlarmMaskAttribute(chipClusterPtr, callback);
+    }
+
     public void readFeatureMapAttribute(LongAttributeCallback callback) {
       readFeatureMapAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeFeatureMapAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeFeatureMapAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportFeatureMapAttribute(LongAttributeCallback callback) {
+      reportFeatureMapAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readMaxPressureAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMaxPressureAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMaxPressureAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMaxSpeedAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMaxSpeedAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMaxSpeedAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMaxFlowAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMaxFlowAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMaxFlowAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMinConstPressureAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMinConstPressureAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMinConstPressureAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMaxConstPressureAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMaxConstPressureAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMaxConstPressureAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMinCompPressureAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMinCompPressureAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMinCompPressureAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMaxCompPressureAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMaxCompPressureAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMaxCompPressureAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMinConstSpeedAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMinConstSpeedAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMinConstSpeedAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMaxConstSpeedAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMaxConstSpeedAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMaxConstSpeedAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMinConstFlowAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMinConstFlowAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMinConstFlowAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMaxConstFlowAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMaxConstFlowAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMaxConstFlowAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMinConstTempAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMinConstTempAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMinConstTempAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMaxConstTempAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMaxConstTempAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMaxConstTempAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPumpStatusAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -5665,9 +9110,21 @@ private native void reportPumpStatusAttribute(
     private native void readEffectiveOperationModeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeEffectiveOperationModeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportEffectiveOperationModeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readEffectiveControlModeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeEffectiveControlModeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportEffectiveControlModeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readCapacityAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -5679,29 +9136,71 @@ private native void reportCapacityAttribute(
 
     private native void readSpeedAttribute(long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeSpeedAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportSpeedAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readLifetimeEnergyConsumedAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeLifetimeEnergyConsumedAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportLifetimeEnergyConsumedAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readOperationModeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeOperationModeAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeOperationModeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportOperationModeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readControlModeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeControlModeAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeControlModeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportControlModeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readAlarmMaskAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeAlarmMaskAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportAlarmMaskAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readFeatureMapAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeFeatureMapAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportFeatureMapAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class RelativeHumidityMeasurementCluster extends BaseChipCluster {
@@ -5733,10 +9232,28 @@ public void readMinMeasuredValueAttribute(IntegerAttributeCallback callback) {
       readMinMeasuredValueAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMinMeasuredValueAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMinMeasuredValueAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMinMeasuredValueAttribute(IntegerAttributeCallback callback) {
+      reportMinMeasuredValueAttribute(chipClusterPtr, callback);
+    }
+
     public void readMaxMeasuredValueAttribute(IntegerAttributeCallback callback) {
       readMaxMeasuredValueAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMaxMeasuredValueAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMaxMeasuredValueAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMaxMeasuredValueAttribute(IntegerAttributeCallback callback) {
+      reportMaxMeasuredValueAttribute(chipClusterPtr, callback);
+    }
+
     public void readToleranceAttribute(IntegerAttributeCallback callback) {
       readToleranceAttribute(chipClusterPtr, callback);
     }
@@ -5754,6 +9271,15 @@ public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readMeasuredValueAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -5766,9 +9292,21 @@ private native void reportMeasuredValueAttribute(
     private native void readMinMeasuredValueAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMinMeasuredValueAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMinMeasuredValueAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMaxMeasuredValueAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMaxMeasuredValueAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMaxMeasuredValueAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readToleranceAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -5780,6 +9318,12 @@ private native void reportToleranceAttribute(
 
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class ScenesCluster extends BaseChipCluster {
@@ -5924,43 +9468,133 @@ public void readSceneCountAttribute(IntegerAttributeCallback callback) {
       readSceneCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeSceneCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeSceneCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportSceneCountAttribute(IntegerAttributeCallback callback) {
+      reportSceneCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readCurrentSceneAttribute(IntegerAttributeCallback callback) {
       readCurrentSceneAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCurrentSceneAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCurrentSceneAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCurrentSceneAttribute(IntegerAttributeCallback callback) {
+      reportCurrentSceneAttribute(chipClusterPtr, callback);
+    }
+
     public void readCurrentGroupAttribute(IntegerAttributeCallback callback) {
       readCurrentGroupAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCurrentGroupAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCurrentGroupAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCurrentGroupAttribute(IntegerAttributeCallback callback) {
+      reportCurrentGroupAttribute(chipClusterPtr, callback);
+    }
+
     public void readSceneValidAttribute(BooleanAttributeCallback callback) {
       readSceneValidAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeSceneValidAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeSceneValidAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportSceneValidAttribute(BooleanAttributeCallback callback) {
+      reportSceneValidAttribute(chipClusterPtr, callback);
+    }
+
     public void readNameSupportAttribute(IntegerAttributeCallback callback) {
       readNameSupportAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeNameSupportAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNameSupportAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNameSupportAttribute(IntegerAttributeCallback callback) {
+      reportNameSupportAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readSceneCountAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeSceneCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportSceneCountAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readCurrentSceneAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeCurrentSceneAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCurrentSceneAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readCurrentGroupAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeCurrentGroupAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCurrentGroupAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readSceneValidAttribute(
         long chipClusterPtr, BooleanAttributeCallback callback);
 
+    private native void subscribeSceneValidAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportSceneValidAttribute(
+        long chipClusterPtr, BooleanAttributeCallback callback);
+
     private native void readNameSupportAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeNameSupportAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNameSupportAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class SoftwareDiagnosticsCluster extends BaseChipCluster {
@@ -6038,32 +9672,93 @@ public void readCurrentHeapFreeAttribute(LongAttributeCallback callback) {
       readCurrentHeapFreeAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCurrentHeapFreeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCurrentHeapFreeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCurrentHeapFreeAttribute(LongAttributeCallback callback) {
+      reportCurrentHeapFreeAttribute(chipClusterPtr, callback);
+    }
+
     public void readCurrentHeapUsedAttribute(LongAttributeCallback callback) {
       readCurrentHeapUsedAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCurrentHeapUsedAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCurrentHeapUsedAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCurrentHeapUsedAttribute(LongAttributeCallback callback) {
+      reportCurrentHeapUsedAttribute(chipClusterPtr, callback);
+    }
+
     public void readCurrentHeapHighWatermarkAttribute(LongAttributeCallback callback) {
       readCurrentHeapHighWatermarkAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCurrentHeapHighWatermarkAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCurrentHeapHighWatermarkAttribute(
+          chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCurrentHeapHighWatermarkAttribute(LongAttributeCallback callback) {
+      reportCurrentHeapHighWatermarkAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readThreadMetricsAttribute(
         long chipClusterPtr, ThreadMetricsAttributeCallback callback);
 
     private native void readCurrentHeapFreeAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeCurrentHeapFreeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCurrentHeapFreeAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readCurrentHeapUsedAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeCurrentHeapUsedAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCurrentHeapUsedAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readCurrentHeapHighWatermarkAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeCurrentHeapHighWatermarkAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCurrentHeapHighWatermarkAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class SwitchCluster extends BaseChipCluster {
@@ -6082,8 +9777,17 @@ public void readNumberOfPositionsAttribute(IntegerAttributeCallback callback) {
       readNumberOfPositionsAttribute(chipClusterPtr, callback);
     }
 
-    public void readCurrentPositionAttribute(IntegerAttributeCallback callback) {
-      readCurrentPositionAttribute(chipClusterPtr, callback);
+    public void subscribeNumberOfPositionsAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNumberOfPositionsAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNumberOfPositionsAttribute(IntegerAttributeCallback callback) {
+      reportNumberOfPositionsAttribute(chipClusterPtr, callback);
+    }
+
+    public void readCurrentPositionAttribute(IntegerAttributeCallback callback) {
+      readCurrentPositionAttribute(chipClusterPtr, callback);
     }
 
     public void subscribeCurrentPositionAttribute(
@@ -6099,17 +9803,50 @@ public void readMultiPressMaxAttribute(IntegerAttributeCallback callback) {
       readMultiPressMaxAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMultiPressMaxAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMultiPressMaxAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMultiPressMaxAttribute(IntegerAttributeCallback callback) {
+      reportMultiPressMaxAttribute(chipClusterPtr, callback);
+    }
+
     public void readFeatureMapAttribute(LongAttributeCallback callback) {
       readFeatureMapAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeFeatureMapAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeFeatureMapAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportFeatureMapAttribute(LongAttributeCallback callback) {
+      reportFeatureMapAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readNumberOfPositionsAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeNumberOfPositionsAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNumberOfPositionsAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readCurrentPositionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -6122,11 +9859,29 @@ private native void reportCurrentPositionAttribute(
     private native void readMultiPressMaxAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMultiPressMaxAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMultiPressMaxAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readFeatureMapAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeFeatureMapAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportFeatureMapAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class TvChannelCluster extends BaseChipCluster {
@@ -6235,25 +9990,70 @@ public void readTvChannelLineupAttribute(OctetStringAttributeCallback callback)
       readTvChannelLineupAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTvChannelLineupAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTvChannelLineupAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTvChannelLineupAttribute(OctetStringAttributeCallback callback) {
+      reportTvChannelLineupAttribute(chipClusterPtr, callback);
+    }
+
     public void readCurrentTvChannelAttribute(OctetStringAttributeCallback callback) {
       readCurrentTvChannelAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCurrentTvChannelAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCurrentTvChannelAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCurrentTvChannelAttribute(OctetStringAttributeCallback callback) {
+      reportCurrentTvChannelAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readTvChannelListAttribute(
         long chipClusterPtr, TvChannelListAttributeCallback callback);
 
     private native void readTvChannelLineupAttribute(
         long chipClusterPtr, OctetStringAttributeCallback callback);
 
+    private native void subscribeTvChannelLineupAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTvChannelLineupAttribute(
+        long chipClusterPtr, OctetStringAttributeCallback callback);
+
     private native void readCurrentTvChannelAttribute(
         long chipClusterPtr, OctetStringAttributeCallback callback);
 
+    private native void subscribeCurrentTvChannelAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCurrentTvChannelAttribute(
+        long chipClusterPtr, OctetStringAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class TargetNavigatorCluster extends BaseChipCluster {
@@ -6320,11 +10120,26 @@ public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readTargetNavigatorListAttribute(
         long chipClusterPtr, TargetNavigatorListAttributeCallback callback);
 
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class TemperatureMeasurementCluster extends BaseChipCluster {
@@ -6356,10 +10171,28 @@ public void readMinMeasuredValueAttribute(IntegerAttributeCallback callback) {
       readMinMeasuredValueAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMinMeasuredValueAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMinMeasuredValueAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMinMeasuredValueAttribute(IntegerAttributeCallback callback) {
+      reportMinMeasuredValueAttribute(chipClusterPtr, callback);
+    }
+
     public void readMaxMeasuredValueAttribute(IntegerAttributeCallback callback) {
       readMaxMeasuredValueAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMaxMeasuredValueAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMaxMeasuredValueAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMaxMeasuredValueAttribute(IntegerAttributeCallback callback) {
+      reportMaxMeasuredValueAttribute(chipClusterPtr, callback);
+    }
+
     public void readToleranceAttribute(IntegerAttributeCallback callback) {
       readToleranceAttribute(chipClusterPtr, callback);
     }
@@ -6377,6 +10210,15 @@ public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readMeasuredValueAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -6389,9 +10231,21 @@ private native void reportMeasuredValueAttribute(
     private native void readMinMeasuredValueAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMinMeasuredValueAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMinMeasuredValueAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMaxMeasuredValueAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeMaxMeasuredValueAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMaxMeasuredValueAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readToleranceAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -6403,6 +10257,12 @@ private native void reportToleranceAttribute(
 
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class TestClusterCluster extends BaseChipCluster {
@@ -6650,6 +10510,15 @@ public void writeBooleanAttribute(DefaultClusterCallback callback, boolean value
       writeBooleanAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeBooleanAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBooleanAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportBooleanAttribute(BooleanAttributeCallback callback) {
+      reportBooleanAttribute(chipClusterPtr, callback);
+    }
+
     public void readBitmap8Attribute(IntegerAttributeCallback callback) {
       readBitmap8Attribute(chipClusterPtr, callback);
     }
@@ -6658,6 +10527,15 @@ public void writeBitmap8Attribute(DefaultClusterCallback callback, int value) {
       writeBitmap8Attribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeBitmap8Attribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBitmap8Attribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportBitmap8Attribute(IntegerAttributeCallback callback) {
+      reportBitmap8Attribute(chipClusterPtr, callback);
+    }
+
     public void readBitmap16Attribute(IntegerAttributeCallback callback) {
       readBitmap16Attribute(chipClusterPtr, callback);
     }
@@ -6666,6 +10544,15 @@ public void writeBitmap16Attribute(DefaultClusterCallback callback, int value) {
       writeBitmap16Attribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeBitmap16Attribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBitmap16Attribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportBitmap16Attribute(IntegerAttributeCallback callback) {
+      reportBitmap16Attribute(chipClusterPtr, callback);
+    }
+
     public void readBitmap32Attribute(LongAttributeCallback callback) {
       readBitmap32Attribute(chipClusterPtr, callback);
     }
@@ -6674,6 +10561,15 @@ public void writeBitmap32Attribute(DefaultClusterCallback callback, long value)
       writeBitmap32Attribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeBitmap32Attribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBitmap32Attribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportBitmap32Attribute(LongAttributeCallback callback) {
+      reportBitmap32Attribute(chipClusterPtr, callback);
+    }
+
     public void readBitmap64Attribute(LongAttributeCallback callback) {
       readBitmap64Attribute(chipClusterPtr, callback);
     }
@@ -6682,6 +10578,15 @@ public void writeBitmap64Attribute(DefaultClusterCallback callback, long value)
       writeBitmap64Attribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeBitmap64Attribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBitmap64Attribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportBitmap64Attribute(LongAttributeCallback callback) {
+      reportBitmap64Attribute(chipClusterPtr, callback);
+    }
+
     public void readInt8uAttribute(IntegerAttributeCallback callback) {
       readInt8uAttribute(chipClusterPtr, callback);
     }
@@ -6690,6 +10595,15 @@ public void writeInt8uAttribute(DefaultClusterCallback callback, int value) {
       writeInt8uAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeInt8uAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeInt8uAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportInt8uAttribute(IntegerAttributeCallback callback) {
+      reportInt8uAttribute(chipClusterPtr, callback);
+    }
+
     public void readInt16uAttribute(IntegerAttributeCallback callback) {
       readInt16uAttribute(chipClusterPtr, callback);
     }
@@ -6698,6 +10612,15 @@ public void writeInt16uAttribute(DefaultClusterCallback callback, int value) {
       writeInt16uAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeInt16uAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeInt16uAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportInt16uAttribute(IntegerAttributeCallback callback) {
+      reportInt16uAttribute(chipClusterPtr, callback);
+    }
+
     public void readInt32uAttribute(LongAttributeCallback callback) {
       readInt32uAttribute(chipClusterPtr, callback);
     }
@@ -6706,6 +10629,15 @@ public void writeInt32uAttribute(DefaultClusterCallback callback, long value) {
       writeInt32uAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeInt32uAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeInt32uAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportInt32uAttribute(LongAttributeCallback callback) {
+      reportInt32uAttribute(chipClusterPtr, callback);
+    }
+
     public void readInt64uAttribute(LongAttributeCallback callback) {
       readInt64uAttribute(chipClusterPtr, callback);
     }
@@ -6714,6 +10646,15 @@ public void writeInt64uAttribute(DefaultClusterCallback callback, long value) {
       writeInt64uAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeInt64uAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeInt64uAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportInt64uAttribute(LongAttributeCallback callback) {
+      reportInt64uAttribute(chipClusterPtr, callback);
+    }
+
     public void readInt8sAttribute(IntegerAttributeCallback callback) {
       readInt8sAttribute(chipClusterPtr, callback);
     }
@@ -6722,6 +10663,15 @@ public void writeInt8sAttribute(DefaultClusterCallback callback, int value) {
       writeInt8sAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeInt8sAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeInt8sAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportInt8sAttribute(IntegerAttributeCallback callback) {
+      reportInt8sAttribute(chipClusterPtr, callback);
+    }
+
     public void readInt16sAttribute(IntegerAttributeCallback callback) {
       readInt16sAttribute(chipClusterPtr, callback);
     }
@@ -6730,6 +10680,15 @@ public void writeInt16sAttribute(DefaultClusterCallback callback, int value) {
       writeInt16sAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeInt16sAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeInt16sAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportInt16sAttribute(IntegerAttributeCallback callback) {
+      reportInt16sAttribute(chipClusterPtr, callback);
+    }
+
     public void readInt32sAttribute(LongAttributeCallback callback) {
       readInt32sAttribute(chipClusterPtr, callback);
     }
@@ -6738,6 +10697,15 @@ public void writeInt32sAttribute(DefaultClusterCallback callback, long value) {
       writeInt32sAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeInt32sAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeInt32sAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportInt32sAttribute(LongAttributeCallback callback) {
+      reportInt32sAttribute(chipClusterPtr, callback);
+    }
+
     public void readInt64sAttribute(LongAttributeCallback callback) {
       readInt64sAttribute(chipClusterPtr, callback);
     }
@@ -6746,6 +10714,15 @@ public void writeInt64sAttribute(DefaultClusterCallback callback, long value) {
       writeInt64sAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeInt64sAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeInt64sAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportInt64sAttribute(LongAttributeCallback callback) {
+      reportInt64sAttribute(chipClusterPtr, callback);
+    }
+
     public void readEnum8Attribute(IntegerAttributeCallback callback) {
       readEnum8Attribute(chipClusterPtr, callback);
     }
@@ -6754,6 +10731,15 @@ public void writeEnum8Attribute(DefaultClusterCallback callback, int value) {
       writeEnum8Attribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeEnum8Attribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeEnum8Attribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportEnum8Attribute(IntegerAttributeCallback callback) {
+      reportEnum8Attribute(chipClusterPtr, callback);
+    }
+
     public void readEnum16Attribute(IntegerAttributeCallback callback) {
       readEnum16Attribute(chipClusterPtr, callback);
     }
@@ -6762,6 +10748,15 @@ public void writeEnum16Attribute(DefaultClusterCallback callback, int value) {
       writeEnum16Attribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeEnum16Attribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeEnum16Attribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportEnum16Attribute(IntegerAttributeCallback callback) {
+      reportEnum16Attribute(chipClusterPtr, callback);
+    }
+
     public void readOctetStringAttribute(OctetStringAttributeCallback callback) {
       readOctetStringAttribute(chipClusterPtr, callback);
     }
@@ -6770,6 +10765,15 @@ public void writeOctetStringAttribute(DefaultClusterCallback callback, byte[] va
       writeOctetStringAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeOctetStringAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeOctetStringAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportOctetStringAttribute(OctetStringAttributeCallback callback) {
+      reportOctetStringAttribute(chipClusterPtr, callback);
+    }
+
     public void readListInt8uAttribute(ListInt8uAttributeCallback callback) {
       readListInt8uAttribute(chipClusterPtr, callback);
     }
@@ -6791,6 +10795,15 @@ public void writeLongOctetStringAttribute(DefaultClusterCallback callback, byte[
       writeLongOctetStringAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeLongOctetStringAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeLongOctetStringAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportLongOctetStringAttribute(OctetStringAttributeCallback callback) {
+      reportLongOctetStringAttribute(chipClusterPtr, callback);
+    }
+
     public void readCharStringAttribute(CharStringAttributeCallback callback) {
       readCharStringAttribute(chipClusterPtr, callback);
     }
@@ -6799,6 +10812,15 @@ public void writeCharStringAttribute(DefaultClusterCallback callback, String val
       writeCharStringAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeCharStringAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCharStringAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCharStringAttribute(CharStringAttributeCallback callback) {
+      reportCharStringAttribute(chipClusterPtr, callback);
+    }
+
     public void readLongCharStringAttribute(CharStringAttributeCallback callback) {
       readLongCharStringAttribute(chipClusterPtr, callback);
     }
@@ -6807,6 +10829,15 @@ public void writeLongCharStringAttribute(DefaultClusterCallback callback, String
       writeLongCharStringAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeLongCharStringAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeLongCharStringAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportLongCharStringAttribute(CharStringAttributeCallback callback) {
+      reportLongCharStringAttribute(chipClusterPtr, callback);
+    }
+
     public void readEpochUsAttribute(LongAttributeCallback callback) {
       readEpochUsAttribute(chipClusterPtr, callback);
     }
@@ -6815,6 +10846,15 @@ public void writeEpochUsAttribute(DefaultClusterCallback callback, long value) {
       writeEpochUsAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeEpochUsAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeEpochUsAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportEpochUsAttribute(LongAttributeCallback callback) {
+      reportEpochUsAttribute(chipClusterPtr, callback);
+    }
+
     public void readEpochSAttribute(LongAttributeCallback callback) {
       readEpochSAttribute(chipClusterPtr, callback);
     }
@@ -6823,6 +10863,15 @@ public void writeEpochSAttribute(DefaultClusterCallback callback, long value) {
       writeEpochSAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeEpochSAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeEpochSAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportEpochSAttribute(LongAttributeCallback callback) {
+      reportEpochSAttribute(chipClusterPtr, callback);
+    }
+
     public void readVendorIdAttribute(IntegerAttributeCallback callback) {
       readVendorIdAttribute(chipClusterPtr, callback);
     }
@@ -6831,6 +10880,15 @@ public void writeVendorIdAttribute(DefaultClusterCallback callback, int value) {
       writeVendorIdAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeVendorIdAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeVendorIdAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportVendorIdAttribute(IntegerAttributeCallback callback) {
+      reportVendorIdAttribute(chipClusterPtr, callback);
+    }
+
     public void readListNullablesAndOptionalsStructAttribute(
         ListNullablesAndOptionalsStructAttributeCallback callback) {
       readListNullablesAndOptionalsStructAttribute(chipClusterPtr, callback);
@@ -6844,6 +10902,15 @@ public void writeUnsupportedAttribute(DefaultClusterCallback callback, boolean v
       writeUnsupportedAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeUnsupportedAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeUnsupportedAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportUnsupportedAttribute(BooleanAttributeCallback callback) {
+      reportUnsupportedAttribute(chipClusterPtr, callback);
+    }
+
     public void readNullableBooleanAttribute(BooleanAttributeCallback callback) {
       readNullableBooleanAttribute(chipClusterPtr, callback);
     }
@@ -6852,6 +10919,15 @@ public void writeNullableBooleanAttribute(DefaultClusterCallback callback, boole
       writeNullableBooleanAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeNullableBooleanAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNullableBooleanAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNullableBooleanAttribute(BooleanAttributeCallback callback) {
+      reportNullableBooleanAttribute(chipClusterPtr, callback);
+    }
+
     public void readNullableBitmap8Attribute(IntegerAttributeCallback callback) {
       readNullableBitmap8Attribute(chipClusterPtr, callback);
     }
@@ -6860,6 +10936,15 @@ public void writeNullableBitmap8Attribute(DefaultClusterCallback callback, int v
       writeNullableBitmap8Attribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeNullableBitmap8Attribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNullableBitmap8Attribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNullableBitmap8Attribute(IntegerAttributeCallback callback) {
+      reportNullableBitmap8Attribute(chipClusterPtr, callback);
+    }
+
     public void readNullableBitmap16Attribute(IntegerAttributeCallback callback) {
       readNullableBitmap16Attribute(chipClusterPtr, callback);
     }
@@ -6868,6 +10953,15 @@ public void writeNullableBitmap16Attribute(DefaultClusterCallback callback, int
       writeNullableBitmap16Attribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeNullableBitmap16Attribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNullableBitmap16Attribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNullableBitmap16Attribute(IntegerAttributeCallback callback) {
+      reportNullableBitmap16Attribute(chipClusterPtr, callback);
+    }
+
     public void readNullableBitmap32Attribute(LongAttributeCallback callback) {
       readNullableBitmap32Attribute(chipClusterPtr, callback);
     }
@@ -6876,6 +10970,15 @@ public void writeNullableBitmap32Attribute(DefaultClusterCallback callback, long
       writeNullableBitmap32Attribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeNullableBitmap32Attribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNullableBitmap32Attribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNullableBitmap32Attribute(LongAttributeCallback callback) {
+      reportNullableBitmap32Attribute(chipClusterPtr, callback);
+    }
+
     public void readNullableBitmap64Attribute(LongAttributeCallback callback) {
       readNullableBitmap64Attribute(chipClusterPtr, callback);
     }
@@ -6884,6 +10987,15 @@ public void writeNullableBitmap64Attribute(DefaultClusterCallback callback, long
       writeNullableBitmap64Attribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeNullableBitmap64Attribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNullableBitmap64Attribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNullableBitmap64Attribute(LongAttributeCallback callback) {
+      reportNullableBitmap64Attribute(chipClusterPtr, callback);
+    }
+
     public void readNullableInt8uAttribute(IntegerAttributeCallback callback) {
       readNullableInt8uAttribute(chipClusterPtr, callback);
     }
@@ -6892,6 +11004,15 @@ public void writeNullableInt8uAttribute(DefaultClusterCallback callback, int val
       writeNullableInt8uAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeNullableInt8uAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNullableInt8uAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNullableInt8uAttribute(IntegerAttributeCallback callback) {
+      reportNullableInt8uAttribute(chipClusterPtr, callback);
+    }
+
     public void readNullableInt16uAttribute(IntegerAttributeCallback callback) {
       readNullableInt16uAttribute(chipClusterPtr, callback);
     }
@@ -6900,6 +11021,15 @@ public void writeNullableInt16uAttribute(DefaultClusterCallback callback, int va
       writeNullableInt16uAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeNullableInt16uAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNullableInt16uAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNullableInt16uAttribute(IntegerAttributeCallback callback) {
+      reportNullableInt16uAttribute(chipClusterPtr, callback);
+    }
+
     public void readNullableInt32uAttribute(LongAttributeCallback callback) {
       readNullableInt32uAttribute(chipClusterPtr, callback);
     }
@@ -6908,6 +11038,15 @@ public void writeNullableInt32uAttribute(DefaultClusterCallback callback, long v
       writeNullableInt32uAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeNullableInt32uAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNullableInt32uAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNullableInt32uAttribute(LongAttributeCallback callback) {
+      reportNullableInt32uAttribute(chipClusterPtr, callback);
+    }
+
     public void readNullableInt64uAttribute(LongAttributeCallback callback) {
       readNullableInt64uAttribute(chipClusterPtr, callback);
     }
@@ -6916,7 +11055,16 @@ public void writeNullableInt64uAttribute(DefaultClusterCallback callback, long v
       writeNullableInt64uAttribute(chipClusterPtr, callback, value);
     }
 
-    public void readNullableInt8sAttribute(IntegerAttributeCallback callback) {
+    public void subscribeNullableInt64uAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNullableInt64uAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNullableInt64uAttribute(LongAttributeCallback callback) {
+      reportNullableInt64uAttribute(chipClusterPtr, callback);
+    }
+
+    public void readNullableInt8sAttribute(IntegerAttributeCallback callback) {
       readNullableInt8sAttribute(chipClusterPtr, callback);
     }
 
@@ -6924,6 +11072,15 @@ public void writeNullableInt8sAttribute(DefaultClusterCallback callback, int val
       writeNullableInt8sAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeNullableInt8sAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNullableInt8sAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNullableInt8sAttribute(IntegerAttributeCallback callback) {
+      reportNullableInt8sAttribute(chipClusterPtr, callback);
+    }
+
     public void readNullableInt16sAttribute(IntegerAttributeCallback callback) {
       readNullableInt16sAttribute(chipClusterPtr, callback);
     }
@@ -6932,6 +11089,15 @@ public void writeNullableInt16sAttribute(DefaultClusterCallback callback, int va
       writeNullableInt16sAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeNullableInt16sAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNullableInt16sAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNullableInt16sAttribute(IntegerAttributeCallback callback) {
+      reportNullableInt16sAttribute(chipClusterPtr, callback);
+    }
+
     public void readNullableInt32sAttribute(LongAttributeCallback callback) {
       readNullableInt32sAttribute(chipClusterPtr, callback);
     }
@@ -6940,6 +11106,15 @@ public void writeNullableInt32sAttribute(DefaultClusterCallback callback, long v
       writeNullableInt32sAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeNullableInt32sAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNullableInt32sAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNullableInt32sAttribute(LongAttributeCallback callback) {
+      reportNullableInt32sAttribute(chipClusterPtr, callback);
+    }
+
     public void readNullableInt64sAttribute(LongAttributeCallback callback) {
       readNullableInt64sAttribute(chipClusterPtr, callback);
     }
@@ -6948,6 +11123,15 @@ public void writeNullableInt64sAttribute(DefaultClusterCallback callback, long v
       writeNullableInt64sAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeNullableInt64sAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNullableInt64sAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNullableInt64sAttribute(LongAttributeCallback callback) {
+      reportNullableInt64sAttribute(chipClusterPtr, callback);
+    }
+
     public void readNullableEnum8Attribute(IntegerAttributeCallback callback) {
       readNullableEnum8Attribute(chipClusterPtr, callback);
     }
@@ -6956,6 +11140,15 @@ public void writeNullableEnum8Attribute(DefaultClusterCallback callback, int val
       writeNullableEnum8Attribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeNullableEnum8Attribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNullableEnum8Attribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNullableEnum8Attribute(IntegerAttributeCallback callback) {
+      reportNullableEnum8Attribute(chipClusterPtr, callback);
+    }
+
     public void readNullableEnum16Attribute(IntegerAttributeCallback callback) {
       readNullableEnum16Attribute(chipClusterPtr, callback);
     }
@@ -6964,6 +11157,15 @@ public void writeNullableEnum16Attribute(DefaultClusterCallback callback, int va
       writeNullableEnum16Attribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeNullableEnum16Attribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNullableEnum16Attribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNullableEnum16Attribute(IntegerAttributeCallback callback) {
+      reportNullableEnum16Attribute(chipClusterPtr, callback);
+    }
+
     public void readNullableOctetStringAttribute(OctetStringAttributeCallback callback) {
       readNullableOctetStringAttribute(chipClusterPtr, callback);
     }
@@ -6972,6 +11174,15 @@ public void writeNullableOctetStringAttribute(DefaultClusterCallback callback, b
       writeNullableOctetStringAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeNullableOctetStringAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNullableOctetStringAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNullableOctetStringAttribute(OctetStringAttributeCallback callback) {
+      reportNullableOctetStringAttribute(chipClusterPtr, callback);
+    }
+
     public void readNullableCharStringAttribute(CharStringAttributeCallback callback) {
       readNullableCharStringAttribute(chipClusterPtr, callback);
     }
@@ -6980,94 +11191,204 @@ public void writeNullableCharStringAttribute(DefaultClusterCallback callback, St
       writeNullableCharStringAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeNullableCharStringAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNullableCharStringAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNullableCharStringAttribute(CharStringAttributeCallback callback) {
+      reportNullableCharStringAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readBooleanAttribute(
         long chipClusterPtr, BooleanAttributeCallback callback);
 
     private native void writeBooleanAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, boolean value);
 
+    private native void subscribeBooleanAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBooleanAttribute(
+        long chipClusterPtr, BooleanAttributeCallback callback);
+
     private native void readBitmap8Attribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeBitmap8Attribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeBitmap8Attribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBitmap8Attribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readBitmap16Attribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeBitmap16Attribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeBitmap16Attribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBitmap16Attribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readBitmap32Attribute(long chipClusterPtr, LongAttributeCallback callback);
 
     private native void writeBitmap32Attribute(
         long chipClusterPtr, DefaultClusterCallback callback, long value);
 
+    private native void subscribeBitmap32Attribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBitmap32Attribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readBitmap64Attribute(long chipClusterPtr, LongAttributeCallback callback);
 
     private native void writeBitmap64Attribute(
         long chipClusterPtr, DefaultClusterCallback callback, long value);
 
+    private native void subscribeBitmap64Attribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBitmap64Attribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readInt8uAttribute(long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeInt8uAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeInt8uAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportInt8uAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readInt16uAttribute(long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeInt16uAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeInt16uAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportInt16uAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readInt32uAttribute(long chipClusterPtr, LongAttributeCallback callback);
 
     private native void writeInt32uAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, long value);
 
+    private native void subscribeInt32uAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportInt32uAttribute(long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readInt64uAttribute(long chipClusterPtr, LongAttributeCallback callback);
 
     private native void writeInt64uAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, long value);
 
+    private native void subscribeInt64uAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportInt64uAttribute(long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readInt8sAttribute(long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeInt8sAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeInt8sAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportInt8sAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readInt16sAttribute(long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeInt16sAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeInt16sAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportInt16sAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readInt32sAttribute(long chipClusterPtr, LongAttributeCallback callback);
 
     private native void writeInt32sAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, long value);
 
+    private native void subscribeInt32sAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportInt32sAttribute(long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readInt64sAttribute(long chipClusterPtr, LongAttributeCallback callback);
 
     private native void writeInt64sAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, long value);
 
+    private native void subscribeInt64sAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportInt64sAttribute(long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readEnum8Attribute(long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeEnum8Attribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeEnum8Attribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportEnum8Attribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readEnum16Attribute(long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeEnum16Attribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeEnum16Attribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportEnum16Attribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readOctetStringAttribute(
         long chipClusterPtr, OctetStringAttributeCallback callback);
 
     private native void writeOctetStringAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, byte[] value);
 
+    private native void subscribeOctetStringAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportOctetStringAttribute(
+        long chipClusterPtr, OctetStringAttributeCallback callback);
+
     private native void readListInt8uAttribute(
         long chipClusterPtr, ListInt8uAttributeCallback callback);
 
@@ -7083,34 +11404,68 @@ private native void readLongOctetStringAttribute(
     private native void writeLongOctetStringAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, byte[] value);
 
+    private native void subscribeLongOctetStringAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportLongOctetStringAttribute(
+        long chipClusterPtr, OctetStringAttributeCallback callback);
+
     private native void readCharStringAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
     private native void writeCharStringAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, String value);
 
+    private native void subscribeCharStringAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCharStringAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readLongCharStringAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
     private native void writeLongCharStringAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, String value);
 
+    private native void subscribeLongCharStringAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportLongCharStringAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readEpochUsAttribute(long chipClusterPtr, LongAttributeCallback callback);
 
     private native void writeEpochUsAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, long value);
 
+    private native void subscribeEpochUsAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportEpochUsAttribute(long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readEpochSAttribute(long chipClusterPtr, LongAttributeCallback callback);
 
     private native void writeEpochSAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, long value);
 
+    private native void subscribeEpochSAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportEpochSAttribute(long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readVendorIdAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeVendorIdAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeVendorIdAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportVendorIdAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readListNullablesAndOptionalsStructAttribute(
         long chipClusterPtr, ListNullablesAndOptionalsStructAttributeCallback callback);
 
@@ -7120,110 +11475,224 @@ private native void readUnsupportedAttribute(
     private native void writeUnsupportedAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, boolean value);
 
+    private native void subscribeUnsupportedAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportUnsupportedAttribute(
+        long chipClusterPtr, BooleanAttributeCallback callback);
+
     private native void readNullableBooleanAttribute(
         long chipClusterPtr, BooleanAttributeCallback callback);
 
     private native void writeNullableBooleanAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, boolean value);
 
+    private native void subscribeNullableBooleanAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNullableBooleanAttribute(
+        long chipClusterPtr, BooleanAttributeCallback callback);
+
     private native void readNullableBitmap8Attribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeNullableBitmap8Attribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeNullableBitmap8Attribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNullableBitmap8Attribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readNullableBitmap16Attribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeNullableBitmap16Attribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeNullableBitmap16Attribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNullableBitmap16Attribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readNullableBitmap32Attribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
     private native void writeNullableBitmap32Attribute(
         long chipClusterPtr, DefaultClusterCallback callback, long value);
 
+    private native void subscribeNullableBitmap32Attribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNullableBitmap32Attribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readNullableBitmap64Attribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
     private native void writeNullableBitmap64Attribute(
         long chipClusterPtr, DefaultClusterCallback callback, long value);
 
+    private native void subscribeNullableBitmap64Attribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNullableBitmap64Attribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readNullableInt8uAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeNullableInt8uAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeNullableInt8uAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNullableInt8uAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readNullableInt16uAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeNullableInt16uAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeNullableInt16uAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNullableInt16uAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readNullableInt32uAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
     private native void writeNullableInt32uAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, long value);
 
+    private native void subscribeNullableInt32uAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNullableInt32uAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readNullableInt64uAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
     private native void writeNullableInt64uAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, long value);
 
+    private native void subscribeNullableInt64uAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNullableInt64uAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readNullableInt8sAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeNullableInt8sAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeNullableInt8sAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNullableInt8sAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readNullableInt16sAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeNullableInt16sAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeNullableInt16sAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNullableInt16sAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readNullableInt32sAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
     private native void writeNullableInt32sAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, long value);
 
+    private native void subscribeNullableInt32sAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNullableInt32sAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readNullableInt64sAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
     private native void writeNullableInt64sAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, long value);
 
+    private native void subscribeNullableInt64sAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNullableInt64sAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readNullableEnum8Attribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeNullableEnum8Attribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeNullableEnum8Attribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNullableEnum8Attribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readNullableEnum16Attribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeNullableEnum16Attribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeNullableEnum16Attribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNullableEnum16Attribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readNullableOctetStringAttribute(
         long chipClusterPtr, OctetStringAttributeCallback callback);
 
     private native void writeNullableOctetStringAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, byte[] value);
 
+    private native void subscribeNullableOctetStringAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNullableOctetStringAttribute(
+        long chipClusterPtr, OctetStringAttributeCallback callback);
+
     private native void readNullableCharStringAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
     private native void writeNullableCharStringAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, String value);
 
+    private native void subscribeNullableCharStringAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNullableCharStringAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class ThermostatCluster extends BaseChipCluster {
@@ -7308,18 +11777,54 @@ public void readAbsMinHeatSetpointLimitAttribute(IntegerAttributeCallback callba
       readAbsMinHeatSetpointLimitAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeAbsMinHeatSetpointLimitAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeAbsMinHeatSetpointLimitAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportAbsMinHeatSetpointLimitAttribute(IntegerAttributeCallback callback) {
+      reportAbsMinHeatSetpointLimitAttribute(chipClusterPtr, callback);
+    }
+
     public void readAbsMaxHeatSetpointLimitAttribute(IntegerAttributeCallback callback) {
       readAbsMaxHeatSetpointLimitAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeAbsMaxHeatSetpointLimitAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeAbsMaxHeatSetpointLimitAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportAbsMaxHeatSetpointLimitAttribute(IntegerAttributeCallback callback) {
+      reportAbsMaxHeatSetpointLimitAttribute(chipClusterPtr, callback);
+    }
+
     public void readAbsMinCoolSetpointLimitAttribute(IntegerAttributeCallback callback) {
       readAbsMinCoolSetpointLimitAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeAbsMinCoolSetpointLimitAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeAbsMinCoolSetpointLimitAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportAbsMinCoolSetpointLimitAttribute(IntegerAttributeCallback callback) {
+      reportAbsMinCoolSetpointLimitAttribute(chipClusterPtr, callback);
+    }
+
     public void readAbsMaxCoolSetpointLimitAttribute(IntegerAttributeCallback callback) {
       readAbsMaxCoolSetpointLimitAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeAbsMaxCoolSetpointLimitAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeAbsMaxCoolSetpointLimitAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportAbsMaxCoolSetpointLimitAttribute(IntegerAttributeCallback callback) {
+      reportAbsMaxCoolSetpointLimitAttribute(chipClusterPtr, callback);
+    }
+
     public void readOccupiedCoolingSetpointAttribute(IntegerAttributeCallback callback) {
       readOccupiedCoolingSetpointAttribute(chipClusterPtr, callback);
     }
@@ -7328,6 +11833,15 @@ public void writeOccupiedCoolingSetpointAttribute(DefaultClusterCallback callbac
       writeOccupiedCoolingSetpointAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeOccupiedCoolingSetpointAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeOccupiedCoolingSetpointAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportOccupiedCoolingSetpointAttribute(IntegerAttributeCallback callback) {
+      reportOccupiedCoolingSetpointAttribute(chipClusterPtr, callback);
+    }
+
     public void readOccupiedHeatingSetpointAttribute(IntegerAttributeCallback callback) {
       readOccupiedHeatingSetpointAttribute(chipClusterPtr, callback);
     }
@@ -7336,6 +11850,15 @@ public void writeOccupiedHeatingSetpointAttribute(DefaultClusterCallback callbac
       writeOccupiedHeatingSetpointAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeOccupiedHeatingSetpointAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeOccupiedHeatingSetpointAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportOccupiedHeatingSetpointAttribute(IntegerAttributeCallback callback) {
+      reportOccupiedHeatingSetpointAttribute(chipClusterPtr, callback);
+    }
+
     public void readMinHeatSetpointLimitAttribute(IntegerAttributeCallback callback) {
       readMinHeatSetpointLimitAttribute(chipClusterPtr, callback);
     }
@@ -7344,6 +11867,15 @@ public void writeMinHeatSetpointLimitAttribute(DefaultClusterCallback callback,
       writeMinHeatSetpointLimitAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeMinHeatSetpointLimitAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMinHeatSetpointLimitAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMinHeatSetpointLimitAttribute(IntegerAttributeCallback callback) {
+      reportMinHeatSetpointLimitAttribute(chipClusterPtr, callback);
+    }
+
     public void readMaxHeatSetpointLimitAttribute(IntegerAttributeCallback callback) {
       readMaxHeatSetpointLimitAttribute(chipClusterPtr, callback);
     }
@@ -7352,6 +11884,15 @@ public void writeMaxHeatSetpointLimitAttribute(DefaultClusterCallback callback,
       writeMaxHeatSetpointLimitAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeMaxHeatSetpointLimitAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMaxHeatSetpointLimitAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMaxHeatSetpointLimitAttribute(IntegerAttributeCallback callback) {
+      reportMaxHeatSetpointLimitAttribute(chipClusterPtr, callback);
+    }
+
     public void readMinCoolSetpointLimitAttribute(IntegerAttributeCallback callback) {
       readMinCoolSetpointLimitAttribute(chipClusterPtr, callback);
     }
@@ -7360,6 +11901,15 @@ public void writeMinCoolSetpointLimitAttribute(DefaultClusterCallback callback,
       writeMinCoolSetpointLimitAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeMinCoolSetpointLimitAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMinCoolSetpointLimitAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMinCoolSetpointLimitAttribute(IntegerAttributeCallback callback) {
+      reportMinCoolSetpointLimitAttribute(chipClusterPtr, callback);
+    }
+
     public void readMaxCoolSetpointLimitAttribute(IntegerAttributeCallback callback) {
       readMaxCoolSetpointLimitAttribute(chipClusterPtr, callback);
     }
@@ -7368,14 +11918,32 @@ public void writeMaxCoolSetpointLimitAttribute(DefaultClusterCallback callback,
       writeMaxCoolSetpointLimitAttribute(chipClusterPtr, callback, value);
     }
 
-    public void readMinSetpointDeadBandAttribute(IntegerAttributeCallback callback) {
-      readMinSetpointDeadBandAttribute(chipClusterPtr, callback);
+    public void subscribeMaxCoolSetpointLimitAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMaxCoolSetpointLimitAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMaxCoolSetpointLimitAttribute(IntegerAttributeCallback callback) {
+      reportMaxCoolSetpointLimitAttribute(chipClusterPtr, callback);
+    }
+
+    public void readMinSetpointDeadBandAttribute(IntegerAttributeCallback callback) {
+      readMinSetpointDeadBandAttribute(chipClusterPtr, callback);
     }
 
     public void writeMinSetpointDeadBandAttribute(DefaultClusterCallback callback, int value) {
       writeMinSetpointDeadBandAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeMinSetpointDeadBandAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMinSetpointDeadBandAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMinSetpointDeadBandAttribute(IntegerAttributeCallback callback) {
+      reportMinSetpointDeadBandAttribute(chipClusterPtr, callback);
+    }
+
     public void readControlSequenceOfOperationAttribute(IntegerAttributeCallback callback) {
       readControlSequenceOfOperationAttribute(chipClusterPtr, callback);
     }
@@ -7385,6 +11953,16 @@ public void writeControlSequenceOfOperationAttribute(
       writeControlSequenceOfOperationAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeControlSequenceOfOperationAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeControlSequenceOfOperationAttribute(
+          chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportControlSequenceOfOperationAttribute(IntegerAttributeCallback callback) {
+      reportControlSequenceOfOperationAttribute(chipClusterPtr, callback);
+    }
+
     public void readSystemModeAttribute(IntegerAttributeCallback callback) {
       readSystemModeAttribute(chipClusterPtr, callback);
     }
@@ -7393,26 +11971,82 @@ public void writeSystemModeAttribute(DefaultClusterCallback callback, int value)
       writeSystemModeAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeSystemModeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeSystemModeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportSystemModeAttribute(IntegerAttributeCallback callback) {
+      reportSystemModeAttribute(chipClusterPtr, callback);
+    }
+
     public void readStartOfWeekAttribute(IntegerAttributeCallback callback) {
       readStartOfWeekAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeStartOfWeekAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeStartOfWeekAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportStartOfWeekAttribute(IntegerAttributeCallback callback) {
+      reportStartOfWeekAttribute(chipClusterPtr, callback);
+    }
+
     public void readNumberOfWeeklyTransitionsAttribute(IntegerAttributeCallback callback) {
       readNumberOfWeeklyTransitionsAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeNumberOfWeeklyTransitionsAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNumberOfWeeklyTransitionsAttribute(
+          chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNumberOfWeeklyTransitionsAttribute(IntegerAttributeCallback callback) {
+      reportNumberOfWeeklyTransitionsAttribute(chipClusterPtr, callback);
+    }
+
     public void readNumberOfDailyTransitionsAttribute(IntegerAttributeCallback callback) {
       readNumberOfDailyTransitionsAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeNumberOfDailyTransitionsAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNumberOfDailyTransitionsAttribute(
+          chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNumberOfDailyTransitionsAttribute(IntegerAttributeCallback callback) {
+      reportNumberOfDailyTransitionsAttribute(chipClusterPtr, callback);
+    }
+
     public void readFeatureMapAttribute(LongAttributeCallback callback) {
       readFeatureMapAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeFeatureMapAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeFeatureMapAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportFeatureMapAttribute(LongAttributeCallback callback) {
+      reportFeatureMapAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readLocalTemperatureAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -7425,83 +12059,191 @@ private native void reportLocalTemperatureAttribute(
     private native void readAbsMinHeatSetpointLimitAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeAbsMinHeatSetpointLimitAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportAbsMinHeatSetpointLimitAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readAbsMaxHeatSetpointLimitAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeAbsMaxHeatSetpointLimitAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportAbsMaxHeatSetpointLimitAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readAbsMinCoolSetpointLimitAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeAbsMinCoolSetpointLimitAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportAbsMinCoolSetpointLimitAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readAbsMaxCoolSetpointLimitAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeAbsMaxCoolSetpointLimitAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportAbsMaxCoolSetpointLimitAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readOccupiedCoolingSetpointAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeOccupiedCoolingSetpointAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeOccupiedCoolingSetpointAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportOccupiedCoolingSetpointAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readOccupiedHeatingSetpointAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeOccupiedHeatingSetpointAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeOccupiedHeatingSetpointAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportOccupiedHeatingSetpointAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMinHeatSetpointLimitAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeMinHeatSetpointLimitAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeMinHeatSetpointLimitAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMinHeatSetpointLimitAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMaxHeatSetpointLimitAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeMaxHeatSetpointLimitAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeMaxHeatSetpointLimitAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMaxHeatSetpointLimitAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMinCoolSetpointLimitAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeMinCoolSetpointLimitAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeMinCoolSetpointLimitAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMinCoolSetpointLimitAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMaxCoolSetpointLimitAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeMaxCoolSetpointLimitAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeMaxCoolSetpointLimitAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMaxCoolSetpointLimitAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readMinSetpointDeadBandAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeMinSetpointDeadBandAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeMinSetpointDeadBandAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMinSetpointDeadBandAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readControlSequenceOfOperationAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeControlSequenceOfOperationAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeControlSequenceOfOperationAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportControlSequenceOfOperationAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readSystemModeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeSystemModeAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeSystemModeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportSystemModeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readStartOfWeekAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeStartOfWeekAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportStartOfWeekAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readNumberOfWeeklyTransitionsAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeNumberOfWeeklyTransitionsAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNumberOfWeeklyTransitionsAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readNumberOfDailyTransitionsAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeNumberOfDailyTransitionsAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNumberOfDailyTransitionsAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readFeatureMapAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeFeatureMapAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportFeatureMapAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class ThermostatUserInterfaceConfigurationCluster extends BaseChipCluster {
@@ -7524,6 +12266,15 @@ public void writeTemperatureDisplayModeAttribute(DefaultClusterCallback callback
       writeTemperatureDisplayModeAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeTemperatureDisplayModeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTemperatureDisplayModeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTemperatureDisplayModeAttribute(IntegerAttributeCallback callback) {
+      reportTemperatureDisplayModeAttribute(chipClusterPtr, callback);
+    }
+
     public void readKeypadLockoutAttribute(IntegerAttributeCallback callback) {
       readKeypadLockoutAttribute(chipClusterPtr, callback);
     }
@@ -7532,6 +12283,15 @@ public void writeKeypadLockoutAttribute(DefaultClusterCallback callback, int val
       writeKeypadLockoutAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeKeypadLockoutAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeKeypadLockoutAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportKeypadLockoutAttribute(IntegerAttributeCallback callback) {
+      reportKeypadLockoutAttribute(chipClusterPtr, callback);
+    }
+
     public void readScheduleProgrammingVisibilityAttribute(IntegerAttributeCallback callback) {
       readScheduleProgrammingVisibilityAttribute(chipClusterPtr, callback);
     }
@@ -7541,30 +12301,73 @@ public void writeScheduleProgrammingVisibilityAttribute(
       writeScheduleProgrammingVisibilityAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeScheduleProgrammingVisibilityAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeScheduleProgrammingVisibilityAttribute(
+          chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportScheduleProgrammingVisibilityAttribute(IntegerAttributeCallback callback) {
+      reportScheduleProgrammingVisibilityAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readTemperatureDisplayModeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeTemperatureDisplayModeAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeTemperatureDisplayModeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTemperatureDisplayModeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readKeypadLockoutAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeKeypadLockoutAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeKeypadLockoutAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportKeypadLockoutAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readScheduleProgrammingVisibilityAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeScheduleProgrammingVisibilityAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeScheduleProgrammingVisibilityAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportScheduleProgrammingVisibilityAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class ThreadNetworkDiagnosticsCluster extends BaseChipCluster {
@@ -7931,30 +12734,93 @@ public void readChannelAttribute(IntegerAttributeCallback callback) {
       readChannelAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeChannelAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeChannelAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportChannelAttribute(IntegerAttributeCallback callback) {
+      reportChannelAttribute(chipClusterPtr, callback);
+    }
+
     public void readRoutingRoleAttribute(IntegerAttributeCallback callback) {
       readRoutingRoleAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRoutingRoleAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRoutingRoleAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRoutingRoleAttribute(IntegerAttributeCallback callback) {
+      reportRoutingRoleAttribute(chipClusterPtr, callback);
+    }
+
     public void readNetworkNameAttribute(OctetStringAttributeCallback callback) {
       readNetworkNameAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeNetworkNameAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeNetworkNameAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportNetworkNameAttribute(OctetStringAttributeCallback callback) {
+      reportNetworkNameAttribute(chipClusterPtr, callback);
+    }
+
     public void readPanIdAttribute(IntegerAttributeCallback callback) {
       readPanIdAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePanIdAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePanIdAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPanIdAttribute(IntegerAttributeCallback callback) {
+      reportPanIdAttribute(chipClusterPtr, callback);
+    }
+
     public void readExtendedPanIdAttribute(LongAttributeCallback callback) {
       readExtendedPanIdAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeExtendedPanIdAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeExtendedPanIdAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportExtendedPanIdAttribute(LongAttributeCallback callback) {
+      reportExtendedPanIdAttribute(chipClusterPtr, callback);
+    }
+
     public void readMeshLocalPrefixAttribute(OctetStringAttributeCallback callback) {
       readMeshLocalPrefixAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeMeshLocalPrefixAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeMeshLocalPrefixAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportMeshLocalPrefixAttribute(OctetStringAttributeCallback callback) {
+      reportMeshLocalPrefixAttribute(chipClusterPtr, callback);
+    }
+
     public void readOverrunCountAttribute(LongAttributeCallback callback) {
       readOverrunCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeOverrunCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeOverrunCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportOverrunCountAttribute(LongAttributeCallback callback) {
+      reportOverrunCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readNeighborTableListAttribute(NeighborTableListAttributeCallback callback) {
       readNeighborTableListAttribute(chipClusterPtr, callback);
     }
@@ -7967,202 +12833,658 @@ public void readPartitionIdAttribute(LongAttributeCallback callback) {
       readPartitionIdAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePartitionIdAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePartitionIdAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPartitionIdAttribute(LongAttributeCallback callback) {
+      reportPartitionIdAttribute(chipClusterPtr, callback);
+    }
+
     public void readWeightingAttribute(IntegerAttributeCallback callback) {
       readWeightingAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeWeightingAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeWeightingAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportWeightingAttribute(IntegerAttributeCallback callback) {
+      reportWeightingAttribute(chipClusterPtr, callback);
+    }
+
     public void readDataVersionAttribute(IntegerAttributeCallback callback) {
       readDataVersionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeDataVersionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeDataVersionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportDataVersionAttribute(IntegerAttributeCallback callback) {
+      reportDataVersionAttribute(chipClusterPtr, callback);
+    }
+
     public void readStableDataVersionAttribute(IntegerAttributeCallback callback) {
       readStableDataVersionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeStableDataVersionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeStableDataVersionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportStableDataVersionAttribute(IntegerAttributeCallback callback) {
+      reportStableDataVersionAttribute(chipClusterPtr, callback);
+    }
+
     public void readLeaderRouterIdAttribute(IntegerAttributeCallback callback) {
       readLeaderRouterIdAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeLeaderRouterIdAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeLeaderRouterIdAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportLeaderRouterIdAttribute(IntegerAttributeCallback callback) {
+      reportLeaderRouterIdAttribute(chipClusterPtr, callback);
+    }
+
     public void readDetachedRoleCountAttribute(IntegerAttributeCallback callback) {
       readDetachedRoleCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeDetachedRoleCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeDetachedRoleCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportDetachedRoleCountAttribute(IntegerAttributeCallback callback) {
+      reportDetachedRoleCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readChildRoleCountAttribute(IntegerAttributeCallback callback) {
       readChildRoleCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeChildRoleCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeChildRoleCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportChildRoleCountAttribute(IntegerAttributeCallback callback) {
+      reportChildRoleCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readRouterRoleCountAttribute(IntegerAttributeCallback callback) {
       readRouterRoleCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRouterRoleCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRouterRoleCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRouterRoleCountAttribute(IntegerAttributeCallback callback) {
+      reportRouterRoleCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readLeaderRoleCountAttribute(IntegerAttributeCallback callback) {
       readLeaderRoleCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeLeaderRoleCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeLeaderRoleCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportLeaderRoleCountAttribute(IntegerAttributeCallback callback) {
+      reportLeaderRoleCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readAttachAttemptCountAttribute(IntegerAttributeCallback callback) {
       readAttachAttemptCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeAttachAttemptCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeAttachAttemptCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportAttachAttemptCountAttribute(IntegerAttributeCallback callback) {
+      reportAttachAttemptCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readPartitionIdChangeCountAttribute(IntegerAttributeCallback callback) {
       readPartitionIdChangeCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePartitionIdChangeCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePartitionIdChangeCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPartitionIdChangeCountAttribute(IntegerAttributeCallback callback) {
+      reportPartitionIdChangeCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readBetterPartitionAttachAttemptCountAttribute(IntegerAttributeCallback callback) {
       readBetterPartitionAttachAttemptCountAttribute(chipClusterPtr, callback);
     }
 
-    public void readParentChangeCountAttribute(IntegerAttributeCallback callback) {
-      readParentChangeCountAttribute(chipClusterPtr, callback);
+    public void subscribeBetterPartitionAttachAttemptCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBetterPartitionAttachAttemptCountAttribute(
+          chipClusterPtr, callback, minInterval, maxInterval);
     }
 
-    public void readTxTotalCountAttribute(LongAttributeCallback callback) {
-      readTxTotalCountAttribute(chipClusterPtr, callback);
+    public void reportBetterPartitionAttachAttemptCountAttribute(
+        IntegerAttributeCallback callback) {
+      reportBetterPartitionAttachAttemptCountAttribute(chipClusterPtr, callback);
     }
 
-    public void readTxUnicastCountAttribute(LongAttributeCallback callback) {
+    public void readParentChangeCountAttribute(IntegerAttributeCallback callback) {
+      readParentChangeCountAttribute(chipClusterPtr, callback);
+    }
+
+    public void subscribeParentChangeCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeParentChangeCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportParentChangeCountAttribute(IntegerAttributeCallback callback) {
+      reportParentChangeCountAttribute(chipClusterPtr, callback);
+    }
+
+    public void readTxTotalCountAttribute(LongAttributeCallback callback) {
+      readTxTotalCountAttribute(chipClusterPtr, callback);
+    }
+
+    public void subscribeTxTotalCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTxTotalCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTxTotalCountAttribute(LongAttributeCallback callback) {
+      reportTxTotalCountAttribute(chipClusterPtr, callback);
+    }
+
+    public void readTxUnicastCountAttribute(LongAttributeCallback callback) {
       readTxUnicastCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTxUnicastCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTxUnicastCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTxUnicastCountAttribute(LongAttributeCallback callback) {
+      reportTxUnicastCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readTxBroadcastCountAttribute(LongAttributeCallback callback) {
       readTxBroadcastCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTxBroadcastCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTxBroadcastCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTxBroadcastCountAttribute(LongAttributeCallback callback) {
+      reportTxBroadcastCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readTxAckRequestedCountAttribute(LongAttributeCallback callback) {
       readTxAckRequestedCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTxAckRequestedCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTxAckRequestedCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTxAckRequestedCountAttribute(LongAttributeCallback callback) {
+      reportTxAckRequestedCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readTxAckedCountAttribute(LongAttributeCallback callback) {
       readTxAckedCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTxAckedCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTxAckedCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTxAckedCountAttribute(LongAttributeCallback callback) {
+      reportTxAckedCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readTxNoAckRequestedCountAttribute(LongAttributeCallback callback) {
       readTxNoAckRequestedCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTxNoAckRequestedCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTxNoAckRequestedCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTxNoAckRequestedCountAttribute(LongAttributeCallback callback) {
+      reportTxNoAckRequestedCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readTxDataCountAttribute(LongAttributeCallback callback) {
       readTxDataCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTxDataCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTxDataCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTxDataCountAttribute(LongAttributeCallback callback) {
+      reportTxDataCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readTxDataPollCountAttribute(LongAttributeCallback callback) {
       readTxDataPollCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTxDataPollCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTxDataPollCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTxDataPollCountAttribute(LongAttributeCallback callback) {
+      reportTxDataPollCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readTxBeaconCountAttribute(LongAttributeCallback callback) {
       readTxBeaconCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTxBeaconCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTxBeaconCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTxBeaconCountAttribute(LongAttributeCallback callback) {
+      reportTxBeaconCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readTxBeaconRequestCountAttribute(LongAttributeCallback callback) {
       readTxBeaconRequestCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTxBeaconRequestCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTxBeaconRequestCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTxBeaconRequestCountAttribute(LongAttributeCallback callback) {
+      reportTxBeaconRequestCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readTxOtherCountAttribute(LongAttributeCallback callback) {
       readTxOtherCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTxOtherCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTxOtherCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTxOtherCountAttribute(LongAttributeCallback callback) {
+      reportTxOtherCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readTxRetryCountAttribute(LongAttributeCallback callback) {
       readTxRetryCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTxRetryCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTxRetryCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTxRetryCountAttribute(LongAttributeCallback callback) {
+      reportTxRetryCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readTxDirectMaxRetryExpiryCountAttribute(LongAttributeCallback callback) {
       readTxDirectMaxRetryExpiryCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTxDirectMaxRetryExpiryCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTxDirectMaxRetryExpiryCountAttribute(
+          chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTxDirectMaxRetryExpiryCountAttribute(LongAttributeCallback callback) {
+      reportTxDirectMaxRetryExpiryCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readTxIndirectMaxRetryExpiryCountAttribute(LongAttributeCallback callback) {
       readTxIndirectMaxRetryExpiryCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTxIndirectMaxRetryExpiryCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTxIndirectMaxRetryExpiryCountAttribute(
+          chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTxIndirectMaxRetryExpiryCountAttribute(LongAttributeCallback callback) {
+      reportTxIndirectMaxRetryExpiryCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readTxErrCcaCountAttribute(LongAttributeCallback callback) {
       readTxErrCcaCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTxErrCcaCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTxErrCcaCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTxErrCcaCountAttribute(LongAttributeCallback callback) {
+      reportTxErrCcaCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readTxErrAbortCountAttribute(LongAttributeCallback callback) {
       readTxErrAbortCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTxErrAbortCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTxErrAbortCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTxErrAbortCountAttribute(LongAttributeCallback callback) {
+      reportTxErrAbortCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readTxErrBusyChannelCountAttribute(LongAttributeCallback callback) {
       readTxErrBusyChannelCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTxErrBusyChannelCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTxErrBusyChannelCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTxErrBusyChannelCountAttribute(LongAttributeCallback callback) {
+      reportTxErrBusyChannelCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readRxTotalCountAttribute(LongAttributeCallback callback) {
       readRxTotalCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRxTotalCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRxTotalCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRxTotalCountAttribute(LongAttributeCallback callback) {
+      reportRxTotalCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readRxUnicastCountAttribute(LongAttributeCallback callback) {
       readRxUnicastCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRxUnicastCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRxUnicastCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRxUnicastCountAttribute(LongAttributeCallback callback) {
+      reportRxUnicastCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readRxBroadcastCountAttribute(LongAttributeCallback callback) {
       readRxBroadcastCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRxBroadcastCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRxBroadcastCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRxBroadcastCountAttribute(LongAttributeCallback callback) {
+      reportRxBroadcastCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readRxDataCountAttribute(LongAttributeCallback callback) {
       readRxDataCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRxDataCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRxDataCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRxDataCountAttribute(LongAttributeCallback callback) {
+      reportRxDataCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readRxDataPollCountAttribute(LongAttributeCallback callback) {
       readRxDataPollCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRxDataPollCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRxDataPollCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRxDataPollCountAttribute(LongAttributeCallback callback) {
+      reportRxDataPollCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readRxBeaconCountAttribute(LongAttributeCallback callback) {
       readRxBeaconCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRxBeaconCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRxBeaconCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRxBeaconCountAttribute(LongAttributeCallback callback) {
+      reportRxBeaconCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readRxBeaconRequestCountAttribute(LongAttributeCallback callback) {
       readRxBeaconRequestCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRxBeaconRequestCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRxBeaconRequestCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRxBeaconRequestCountAttribute(LongAttributeCallback callback) {
+      reportRxBeaconRequestCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readRxOtherCountAttribute(LongAttributeCallback callback) {
       readRxOtherCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRxOtherCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRxOtherCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRxOtherCountAttribute(LongAttributeCallback callback) {
+      reportRxOtherCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readRxAddressFilteredCountAttribute(LongAttributeCallback callback) {
       readRxAddressFilteredCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRxAddressFilteredCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRxAddressFilteredCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRxAddressFilteredCountAttribute(LongAttributeCallback callback) {
+      reportRxAddressFilteredCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readRxDestAddrFilteredCountAttribute(LongAttributeCallback callback) {
       readRxDestAddrFilteredCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRxDestAddrFilteredCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRxDestAddrFilteredCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRxDestAddrFilteredCountAttribute(LongAttributeCallback callback) {
+      reportRxDestAddrFilteredCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readRxDuplicatedCountAttribute(LongAttributeCallback callback) {
       readRxDuplicatedCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRxDuplicatedCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRxDuplicatedCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRxDuplicatedCountAttribute(LongAttributeCallback callback) {
+      reportRxDuplicatedCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readRxErrNoFrameCountAttribute(LongAttributeCallback callback) {
       readRxErrNoFrameCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRxErrNoFrameCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRxErrNoFrameCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRxErrNoFrameCountAttribute(LongAttributeCallback callback) {
+      reportRxErrNoFrameCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readRxErrUnknownNeighborCountAttribute(LongAttributeCallback callback) {
       readRxErrUnknownNeighborCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRxErrUnknownNeighborCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRxErrUnknownNeighborCountAttribute(
+          chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRxErrUnknownNeighborCountAttribute(LongAttributeCallback callback) {
+      reportRxErrUnknownNeighborCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readRxErrInvalidSrcAddrCountAttribute(LongAttributeCallback callback) {
       readRxErrInvalidSrcAddrCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRxErrInvalidSrcAddrCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRxErrInvalidSrcAddrCountAttribute(
+          chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRxErrInvalidSrcAddrCountAttribute(LongAttributeCallback callback) {
+      reportRxErrInvalidSrcAddrCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readRxErrSecCountAttribute(LongAttributeCallback callback) {
       readRxErrSecCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRxErrSecCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRxErrSecCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRxErrSecCountAttribute(LongAttributeCallback callback) {
+      reportRxErrSecCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readRxErrFcsCountAttribute(LongAttributeCallback callback) {
       readRxErrFcsCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRxErrFcsCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRxErrFcsCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRxErrFcsCountAttribute(LongAttributeCallback callback) {
+      reportRxErrFcsCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readRxErrOtherCountAttribute(LongAttributeCallback callback) {
       readRxErrOtherCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRxErrOtherCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRxErrOtherCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRxErrOtherCountAttribute(LongAttributeCallback callback) {
+      reportRxErrOtherCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readActiveTimestampAttribute(LongAttributeCallback callback) {
       readActiveTimestampAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeActiveTimestampAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeActiveTimestampAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportActiveTimestampAttribute(LongAttributeCallback callback) {
+      reportActiveTimestampAttribute(chipClusterPtr, callback);
+    }
+
     public void readPendingTimestampAttribute(LongAttributeCallback callback) {
       readPendingTimestampAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePendingTimestampAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePendingTimestampAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPendingTimestampAttribute(LongAttributeCallback callback) {
+      reportPendingTimestampAttribute(chipClusterPtr, callback);
+    }
+
     public void readDelayAttribute(LongAttributeCallback callback) {
       readDelayAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeDelayAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeDelayAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportDelayAttribute(LongAttributeCallback callback) {
+      reportDelayAttribute(chipClusterPtr, callback);
+    }
+
     public void readSecurityPolicyAttribute(SecurityPolicyAttributeCallback callback) {
       readSecurityPolicyAttribute(chipClusterPtr, callback);
     }
@@ -8171,6 +13493,15 @@ public void readChannelMaskAttribute(OctetStringAttributeCallback callback) {
       readChannelMaskAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeChannelMaskAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeChannelMaskAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportChannelMaskAttribute(OctetStringAttributeCallback callback) {
+      reportChannelMaskAttribute(chipClusterPtr, callback);
+    }
+
     public void readOperationalDatasetComponentsAttribute(
         OperationalDatasetComponentsAttributeCallback callback) {
       readOperationalDatasetComponentsAttribute(chipClusterPtr, callback);
@@ -8185,26 +13516,77 @@ public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readChannelAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeChannelAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportChannelAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readRoutingRoleAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeRoutingRoleAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRoutingRoleAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readNetworkNameAttribute(
         long chipClusterPtr, OctetStringAttributeCallback callback);
 
+    private native void subscribeNetworkNameAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportNetworkNameAttribute(
+        long chipClusterPtr, OctetStringAttributeCallback callback);
+
     private native void readPanIdAttribute(long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePanIdAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPanIdAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readExtendedPanIdAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeExtendedPanIdAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportExtendedPanIdAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readMeshLocalPrefixAttribute(
         long chipClusterPtr, OctetStringAttributeCallback callback);
 
+    private native void subscribeMeshLocalPrefixAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportMeshLocalPrefixAttribute(
+        long chipClusterPtr, OctetStringAttributeCallback callback);
+
     private native void readOverrunCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeOverrunCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportOverrunCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readNeighborTableListAttribute(
         long chipClusterPtr, NeighborTableListAttributeCallback callback);
 
@@ -8214,156 +13596,461 @@ private native void readRouteTableListAttribute(
     private native void readPartitionIdAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribePartitionIdAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPartitionIdAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readWeightingAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeWeightingAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportWeightingAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readDataVersionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeDataVersionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportDataVersionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readStableDataVersionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeStableDataVersionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportStableDataVersionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readLeaderRouterIdAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeLeaderRouterIdAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportLeaderRouterIdAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readDetachedRoleCountAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeDetachedRoleCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportDetachedRoleCountAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readChildRoleCountAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeChildRoleCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportChildRoleCountAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readRouterRoleCountAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeRouterRoleCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRouterRoleCountAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readLeaderRoleCountAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeLeaderRoleCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportLeaderRoleCountAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readAttachAttemptCountAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeAttachAttemptCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportAttachAttemptCountAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readPartitionIdChangeCountAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribePartitionIdChangeCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPartitionIdChangeCountAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readBetterPartitionAttachAttemptCountAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeBetterPartitionAttachAttemptCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBetterPartitionAttachAttemptCountAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readParentChangeCountAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeParentChangeCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportParentChangeCountAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readTxTotalCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTxTotalCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTxTotalCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readTxUnicastCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTxUnicastCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTxUnicastCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readTxBroadcastCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTxBroadcastCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTxBroadcastCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readTxAckRequestedCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTxAckRequestedCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTxAckRequestedCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readTxAckedCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTxAckedCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTxAckedCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readTxNoAckRequestedCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTxNoAckRequestedCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTxNoAckRequestedCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readTxDataCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTxDataCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTxDataCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readTxDataPollCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTxDataPollCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTxDataPollCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readTxBeaconCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTxBeaconCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTxBeaconCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readTxBeaconRequestCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTxBeaconRequestCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTxBeaconRequestCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readTxOtherCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTxOtherCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTxOtherCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readTxRetryCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTxRetryCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTxRetryCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readTxDirectMaxRetryExpiryCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTxDirectMaxRetryExpiryCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTxDirectMaxRetryExpiryCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readTxIndirectMaxRetryExpiryCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTxIndirectMaxRetryExpiryCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTxIndirectMaxRetryExpiryCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readTxErrCcaCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTxErrCcaCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTxErrCcaCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readTxErrAbortCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTxErrAbortCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTxErrAbortCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readTxErrBusyChannelCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeTxErrBusyChannelCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTxErrBusyChannelCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readRxTotalCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeRxTotalCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRxTotalCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readRxUnicastCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeRxUnicastCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRxUnicastCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readRxBroadcastCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeRxBroadcastCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRxBroadcastCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readRxDataCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeRxDataCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRxDataCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readRxDataPollCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeRxDataPollCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRxDataPollCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readRxBeaconCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeRxBeaconCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRxBeaconCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readRxBeaconRequestCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeRxBeaconRequestCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRxBeaconRequestCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readRxOtherCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeRxOtherCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRxOtherCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readRxAddressFilteredCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeRxAddressFilteredCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRxAddressFilteredCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readRxDestAddrFilteredCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeRxDestAddrFilteredCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRxDestAddrFilteredCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readRxDuplicatedCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeRxDuplicatedCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRxDuplicatedCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readRxErrNoFrameCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeRxErrNoFrameCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRxErrNoFrameCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readRxErrUnknownNeighborCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeRxErrUnknownNeighborCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRxErrUnknownNeighborCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readRxErrInvalidSrcAddrCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeRxErrInvalidSrcAddrCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRxErrInvalidSrcAddrCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readRxErrSecCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeRxErrSecCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRxErrSecCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readRxErrFcsCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeRxErrFcsCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRxErrFcsCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readRxErrOtherCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeRxErrOtherCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRxErrOtherCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readActiveTimestampAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeActiveTimestampAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportActiveTimestampAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readPendingTimestampAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribePendingTimestampAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPendingTimestampAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readDelayAttribute(long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeDelayAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportDelayAttribute(long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readSecurityPolicyAttribute(
         long chipClusterPtr, SecurityPolicyAttributeCallback callback);
 
-    private native void readChannelMaskAttribute(
+    private native void readChannelMaskAttribute(
+        long chipClusterPtr, OctetStringAttributeCallback callback);
+
+    private native void subscribeChannelMaskAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportChannelMaskAttribute(
         long chipClusterPtr, OctetStringAttributeCallback callback);
 
     private native void readOperationalDatasetComponentsAttribute(
@@ -8374,6 +14061,12 @@ private native void readActiveNetworkFaultsListAttribute(
 
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class WakeOnLanCluster extends BaseChipCluster {
@@ -8392,15 +14085,45 @@ public void readWakeOnLanMacAddressAttribute(CharStringAttributeCallback callbac
       readWakeOnLanMacAddressAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeWakeOnLanMacAddressAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeWakeOnLanMacAddressAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportWakeOnLanMacAddressAttribute(CharStringAttributeCallback callback) {
+      reportWakeOnLanMacAddressAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readWakeOnLanMacAddressAttribute(
         long chipClusterPtr, CharStringAttributeCallback callback);
 
+    private native void subscribeWakeOnLanMacAddressAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportWakeOnLanMacAddressAttribute(
+        long chipClusterPtr, CharStringAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class WiFiNetworkDiagnosticsCluster extends BaseChipCluster {
@@ -8425,98 +14148,307 @@ public void readBssidAttribute(OctetStringAttributeCallback callback) {
       readBssidAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeBssidAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBssidAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportBssidAttribute(OctetStringAttributeCallback callback) {
+      reportBssidAttribute(chipClusterPtr, callback);
+    }
+
     public void readSecurityTypeAttribute(IntegerAttributeCallback callback) {
       readSecurityTypeAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeSecurityTypeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeSecurityTypeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportSecurityTypeAttribute(IntegerAttributeCallback callback) {
+      reportSecurityTypeAttribute(chipClusterPtr, callback);
+    }
+
     public void readWiFiVersionAttribute(IntegerAttributeCallback callback) {
       readWiFiVersionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeWiFiVersionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeWiFiVersionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportWiFiVersionAttribute(IntegerAttributeCallback callback) {
+      reportWiFiVersionAttribute(chipClusterPtr, callback);
+    }
+
     public void readChannelNumberAttribute(IntegerAttributeCallback callback) {
       readChannelNumberAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeChannelNumberAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeChannelNumberAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportChannelNumberAttribute(IntegerAttributeCallback callback) {
+      reportChannelNumberAttribute(chipClusterPtr, callback);
+    }
+
     public void readRssiAttribute(IntegerAttributeCallback callback) {
       readRssiAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeRssiAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeRssiAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportRssiAttribute(IntegerAttributeCallback callback) {
+      reportRssiAttribute(chipClusterPtr, callback);
+    }
+
     public void readBeaconLostCountAttribute(LongAttributeCallback callback) {
       readBeaconLostCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeBeaconLostCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBeaconLostCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportBeaconLostCountAttribute(LongAttributeCallback callback) {
+      reportBeaconLostCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readBeaconRxCountAttribute(LongAttributeCallback callback) {
       readBeaconRxCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeBeaconRxCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeBeaconRxCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportBeaconRxCountAttribute(LongAttributeCallback callback) {
+      reportBeaconRxCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readPacketMulticastRxCountAttribute(LongAttributeCallback callback) {
       readPacketMulticastRxCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePacketMulticastRxCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePacketMulticastRxCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPacketMulticastRxCountAttribute(LongAttributeCallback callback) {
+      reportPacketMulticastRxCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readPacketMulticastTxCountAttribute(LongAttributeCallback callback) {
       readPacketMulticastTxCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePacketMulticastTxCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePacketMulticastTxCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPacketMulticastTxCountAttribute(LongAttributeCallback callback) {
+      reportPacketMulticastTxCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readPacketUnicastRxCountAttribute(LongAttributeCallback callback) {
       readPacketUnicastRxCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePacketUnicastRxCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePacketUnicastRxCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPacketUnicastRxCountAttribute(LongAttributeCallback callback) {
+      reportPacketUnicastRxCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readPacketUnicastTxCountAttribute(LongAttributeCallback callback) {
       readPacketUnicastTxCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribePacketUnicastTxCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribePacketUnicastTxCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportPacketUnicastTxCountAttribute(LongAttributeCallback callback) {
+      reportPacketUnicastTxCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readCurrentMaxRateAttribute(LongAttributeCallback callback) {
       readCurrentMaxRateAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCurrentMaxRateAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCurrentMaxRateAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCurrentMaxRateAttribute(LongAttributeCallback callback) {
+      reportCurrentMaxRateAttribute(chipClusterPtr, callback);
+    }
+
     public void readOverrunCountAttribute(LongAttributeCallback callback) {
       readOverrunCountAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeOverrunCountAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeOverrunCountAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportOverrunCountAttribute(LongAttributeCallback callback) {
+      reportOverrunCountAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readBssidAttribute(
         long chipClusterPtr, OctetStringAttributeCallback callback);
 
+    private native void subscribeBssidAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBssidAttribute(
+        long chipClusterPtr, OctetStringAttributeCallback callback);
+
     private native void readSecurityTypeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeSecurityTypeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportSecurityTypeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readWiFiVersionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeWiFiVersionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportWiFiVersionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readChannelNumberAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeChannelNumberAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportChannelNumberAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readRssiAttribute(long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeRssiAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportRssiAttribute(long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readBeaconLostCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeBeaconLostCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBeaconLostCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readBeaconRxCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeBeaconRxCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportBeaconRxCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readPacketMulticastRxCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribePacketMulticastRxCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPacketMulticastRxCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readPacketMulticastTxCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribePacketMulticastTxCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPacketMulticastTxCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readPacketUnicastRxCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribePacketUnicastRxCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPacketUnicastRxCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readPacketUnicastTxCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribePacketUnicastTxCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportPacketUnicastTxCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readCurrentMaxRateAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeCurrentMaxRateAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCurrentMaxRateAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readOverrunCountAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeOverrunCountAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportOverrunCountAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 
   public static class WindowCoveringCluster extends BaseChipCluster {
@@ -8593,18 +14525,54 @@ public void readTypeAttribute(IntegerAttributeCallback callback) {
       readTypeAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeTypeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeTypeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportTypeAttribute(IntegerAttributeCallback callback) {
+      reportTypeAttribute(chipClusterPtr, callback);
+    }
+
     public void readCurrentPositionLiftAttribute(IntegerAttributeCallback callback) {
       readCurrentPositionLiftAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCurrentPositionLiftAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCurrentPositionLiftAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCurrentPositionLiftAttribute(IntegerAttributeCallback callback) {
+      reportCurrentPositionLiftAttribute(chipClusterPtr, callback);
+    }
+
     public void readCurrentPositionTiltAttribute(IntegerAttributeCallback callback) {
       readCurrentPositionTiltAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeCurrentPositionTiltAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeCurrentPositionTiltAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportCurrentPositionTiltAttribute(IntegerAttributeCallback callback) {
+      reportCurrentPositionTiltAttribute(chipClusterPtr, callback);
+    }
+
     public void readConfigStatusAttribute(IntegerAttributeCallback callback) {
       readConfigStatusAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeConfigStatusAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeConfigStatusAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportConfigStatusAttribute(IntegerAttributeCallback callback) {
+      reportConfigStatusAttribute(chipClusterPtr, callback);
+    }
+
     public void readCurrentPositionLiftPercentageAttribute(IntegerAttributeCallback callback) {
       readCurrentPositionLiftPercentageAttribute(chipClusterPtr, callback);
     }
@@ -8678,6 +14646,15 @@ public void readEndProductTypeAttribute(IntegerAttributeCallback callback) {
       readEndProductTypeAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeEndProductTypeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeEndProductTypeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportEndProductTypeAttribute(IntegerAttributeCallback callback) {
+      reportEndProductTypeAttribute(chipClusterPtr, callback);
+    }
+
     public void readCurrentPositionLiftPercent100thsAttribute(IntegerAttributeCallback callback) {
       readCurrentPositionLiftPercent100thsAttribute(chipClusterPtr, callback);
     }
@@ -8710,18 +14687,56 @@ public void readInstalledOpenLimitLiftAttribute(IntegerAttributeCallback callbac
       readInstalledOpenLimitLiftAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeInstalledOpenLimitLiftAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeInstalledOpenLimitLiftAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportInstalledOpenLimitLiftAttribute(IntegerAttributeCallback callback) {
+      reportInstalledOpenLimitLiftAttribute(chipClusterPtr, callback);
+    }
+
     public void readInstalledClosedLimitLiftAttribute(IntegerAttributeCallback callback) {
       readInstalledClosedLimitLiftAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeInstalledClosedLimitLiftAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeInstalledClosedLimitLiftAttribute(
+          chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportInstalledClosedLimitLiftAttribute(IntegerAttributeCallback callback) {
+      reportInstalledClosedLimitLiftAttribute(chipClusterPtr, callback);
+    }
+
     public void readInstalledOpenLimitTiltAttribute(IntegerAttributeCallback callback) {
       readInstalledOpenLimitTiltAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeInstalledOpenLimitTiltAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeInstalledOpenLimitTiltAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportInstalledOpenLimitTiltAttribute(IntegerAttributeCallback callback) {
+      reportInstalledOpenLimitTiltAttribute(chipClusterPtr, callback);
+    }
+
     public void readInstalledClosedLimitTiltAttribute(IntegerAttributeCallback callback) {
       readInstalledClosedLimitTiltAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeInstalledClosedLimitTiltAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeInstalledClosedLimitTiltAttribute(
+          chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportInstalledClosedLimitTiltAttribute(IntegerAttributeCallback callback) {
+      reportInstalledClosedLimitTiltAttribute(chipClusterPtr, callback);
+    }
+
     public void readModeAttribute(IntegerAttributeCallback callback) {
       readModeAttribute(chipClusterPtr, callback);
     }
@@ -8730,6 +14745,15 @@ public void writeModeAttribute(DefaultClusterCallback callback, int value) {
       writeModeAttribute(chipClusterPtr, callback, value);
     }
 
+    public void subscribeModeAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeModeAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportModeAttribute(IntegerAttributeCallback callback) {
+      reportModeAttribute(chipClusterPtr, callback);
+    }
+
     public void readSafetyStatusAttribute(IntegerAttributeCallback callback) {
       readSafetyStatusAttribute(chipClusterPtr, callback);
     }
@@ -8747,21 +14771,62 @@ public void readFeatureMapAttribute(LongAttributeCallback callback) {
       readFeatureMapAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeFeatureMapAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeFeatureMapAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportFeatureMapAttribute(LongAttributeCallback callback) {
+      reportFeatureMapAttribute(chipClusterPtr, callback);
+    }
+
     public void readClusterRevisionAttribute(IntegerAttributeCallback callback) {
       readClusterRevisionAttribute(chipClusterPtr, callback);
     }
 
+    public void subscribeClusterRevisionAttribute(
+        DefaultClusterCallback callback, int minInterval, int maxInterval) {
+      subscribeClusterRevisionAttribute(chipClusterPtr, callback, minInterval, maxInterval);
+    }
+
+    public void reportClusterRevisionAttribute(IntegerAttributeCallback callback) {
+      reportClusterRevisionAttribute(chipClusterPtr, callback);
+    }
+
     private native void readTypeAttribute(long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeTypeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportTypeAttribute(long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readCurrentPositionLiftAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeCurrentPositionLiftAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCurrentPositionLiftAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readCurrentPositionTiltAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeCurrentPositionTiltAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportCurrentPositionTiltAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readConfigStatusAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeConfigStatusAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportConfigStatusAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readCurrentPositionLiftPercentageAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -8810,6 +14875,12 @@ private native void reportTargetPositionTiltPercent100thsAttribute(
     private native void readEndProductTypeAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeEndProductTypeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportEndProductTypeAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readCurrentPositionLiftPercent100thsAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -8831,20 +14902,49 @@ private native void reportCurrentPositionTiltPercent100thsAttribute(
     private native void readInstalledOpenLimitLiftAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeInstalledOpenLimitLiftAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportInstalledOpenLimitLiftAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readInstalledClosedLimitLiftAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeInstalledClosedLimitLiftAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportInstalledClosedLimitLiftAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readInstalledOpenLimitTiltAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeInstalledOpenLimitTiltAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportInstalledOpenLimitTiltAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readInstalledClosedLimitTiltAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
+    private native void subscribeInstalledClosedLimitTiltAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportInstalledClosedLimitTiltAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readModeAttribute(long chipClusterPtr, IntegerAttributeCallback callback);
 
     private native void writeModeAttribute(
         long chipClusterPtr, DefaultClusterCallback callback, int value);
 
+    private native void subscribeModeAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportModeAttribute(long chipClusterPtr, IntegerAttributeCallback callback);
+
     private native void readSafetyStatusAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
 
@@ -8857,7 +14957,19 @@ private native void reportSafetyStatusAttribute(
     private native void readFeatureMapAttribute(
         long chipClusterPtr, LongAttributeCallback callback);
 
+    private native void subscribeFeatureMapAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportFeatureMapAttribute(
+        long chipClusterPtr, LongAttributeCallback callback);
+
     private native void readClusterRevisionAttribute(
         long chipClusterPtr, IntegerAttributeCallback callback);
+
+    private native void subscribeClusterRevisionAttribute(
+        long chipClusterPtr, DefaultClusterCallback callback, int minInterval, int maxInterval);
+
+    private native void reportClusterRevisionAttribute(
+        long chipClusterPtr, IntegerAttributeCallback callback);
   }
 }
diff --git a/src/controller/python/chip/clusters/CHIPClusters.cpp b/src/controller/python/chip/clusters/CHIPClusters.cpp
index 560d0ef435a3be..a8f029aecb6752 100644
--- a/src/controller/python/chip/clusters/CHIPClusters.cpp
+++ b/src/controller/python/chip/clusters/CHIPClusters.cpp
@@ -1973,6 +1973,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_AccountLogin_ClusterRevision
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_AccountLogin_ClusterRevision(chip::DeviceProxy * device,
+                                                                                      chip::EndpointId ZCLendpointId,
+                                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::AccountLoginCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster AccountLogin
 // Cluster AdministratorCommissioning
 
@@ -1986,6 +1999,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_AdministratorCommissioning_C
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_AdministratorCommissioning_ClusterRevision(chip::DeviceProxy * device,
+                                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                                    uint16_t minInterval,
+                                                                                                    uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::AdministratorCommissioningCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster AdministratorCommissioning
 // Cluster ApplicationBasic
 
@@ -1999,6 +2026,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationBasic_VendorName(
     return cluster.ReadAttributeVendorName(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ApplicationBasic_VendorName(chip::DeviceProxy * device,
+                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                     uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ApplicationBasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeVendorName(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                      maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationBasic_VendorId(chip::DeviceProxy * device,
                                                                               chip::EndpointId ZCLendpointId,
                                                                               chip::GroupId /* ZCLgroupId */)
@@ -2009,6 +2049,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationBasic_VendorId(ch
     return cluster.ReadAttributeVendorId(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ApplicationBasic_VendorId(chip::DeviceProxy * device,
+                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ApplicationBasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeVendorId(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationBasic_ApplicationName(chip::DeviceProxy * device,
                                                                                      chip::EndpointId ZCLendpointId,
                                                                                      chip::GroupId /* ZCLgroupId */)
@@ -2020,6 +2072,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationBasic_Application
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ApplicationBasic_ApplicationName(chip::DeviceProxy * device,
+                                                                                          chip::EndpointId ZCLendpointId,
+                                                                                          uint16_t minInterval,
+                                                                                          uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ApplicationBasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeApplicationName(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationBasic_ProductId(chip::DeviceProxy * device,
                                                                                chip::EndpointId ZCLendpointId,
                                                                                chip::GroupId /* ZCLgroupId */)
@@ -2030,6 +2096,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationBasic_ProductId(c
     return cluster.ReadAttributeProductId(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ApplicationBasic_ProductId(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ApplicationBasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeProductId(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationBasic_ApplicationId(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -2040,6 +2118,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationBasic_Application
     return cluster.ReadAttributeApplicationId(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ApplicationBasic_ApplicationId(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ApplicationBasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeApplicationId(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationBasic_CatalogVendorId(chip::DeviceProxy * device,
                                                                                      chip::EndpointId ZCLendpointId,
                                                                                      chip::GroupId /* ZCLgroupId */)
@@ -2050,6 +2141,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationBasic_CatalogVend
     return cluster.ReadAttributeCatalogVendorId(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ApplicationBasic_CatalogVendorId(chip::DeviceProxy * device,
+                                                                                          chip::EndpointId ZCLendpointId,
+                                                                                          uint16_t minInterval,
+                                                                                          uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ApplicationBasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCatalogVendorId(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationBasic_ApplicationStatus(chip::DeviceProxy * device,
                                                                                        chip::EndpointId ZCLendpointId,
                                                                                        chip::GroupId /* ZCLgroupId */)
@@ -2060,6 +2165,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationBasic_Application
     return cluster.ReadAttributeApplicationStatus(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ApplicationBasic_ApplicationStatus(chip::DeviceProxy * device,
+                                                                                            chip::EndpointId ZCLendpointId,
+                                                                                            uint16_t minInterval,
+                                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ApplicationBasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeApplicationStatus(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationBasic_ClusterRevision(chip::DeviceProxy * device,
                                                                                      chip::EndpointId ZCLendpointId,
                                                                                      chip::GroupId /* ZCLgroupId */)
@@ -2070,6 +2189,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationBasic_ClusterRevi
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ApplicationBasic_ClusterRevision(chip::DeviceProxy * device,
+                                                                                          chip::EndpointId ZCLendpointId,
+                                                                                          uint16_t minInterval,
+                                                                                          uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ApplicationBasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster ApplicationBasic
 // Cluster ApplicationLauncher
 
@@ -2096,6 +2229,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationLauncher_CatalogV
     return cluster.ReadAttributeCatalogVendorId(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ApplicationLauncher_CatalogVendorId(chip::DeviceProxy * device,
+                                                                                             chip::EndpointId ZCLendpointId,
+                                                                                             uint16_t minInterval,
+                                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ApplicationLauncherCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCatalogVendorId(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationLauncher_ApplicationId(chip::DeviceProxy * device,
                                                                                       chip::EndpointId ZCLendpointId,
                                                                                       chip::GroupId /* ZCLgroupId */)
@@ -2106,6 +2253,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationLauncher_Applicat
     return cluster.ReadAttributeApplicationId(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ApplicationLauncher_ApplicationId(chip::DeviceProxy * device,
+                                                                                           chip::EndpointId ZCLendpointId,
+                                                                                           uint16_t minInterval,
+                                                                                           uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ApplicationLauncherCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeApplicationId(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationLauncher_ClusterRevision(chip::DeviceProxy * device,
                                                                                         chip::EndpointId ZCLendpointId,
                                                                                         chip::GroupId /* ZCLgroupId */)
@@ -2116,6 +2277,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ApplicationLauncher_ClusterR
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ApplicationLauncher_ClusterRevision(chip::DeviceProxy * device,
+                                                                                             chip::EndpointId ZCLendpointId,
+                                                                                             uint16_t minInterval,
+                                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ApplicationLauncherCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster ApplicationLauncher
 // Cluster AudioOutput
 
@@ -2141,6 +2316,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_AudioOutput_CurrentAudioOutp
     return cluster.ReadAttributeCurrentAudioOutput(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_AudioOutput_CurrentAudioOutput(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::AudioOutputCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCurrentAudioOutput(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                              maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_AudioOutput_ClusterRevision(chip::DeviceProxy * device,
                                                                                 chip::EndpointId ZCLendpointId,
                                                                                 chip::GroupId /* ZCLgroupId */)
@@ -2151,6 +2339,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_AudioOutput_ClusterRevision(
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_AudioOutput_ClusterRevision(chip::DeviceProxy * device,
+                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                     uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::AudioOutputCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster AudioOutput
 // Cluster BarrierControl
 
@@ -2164,6 +2365,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_BarrierControl_BarrierMoving
     return cluster.ReadAttributeBarrierMovingState(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_BarrierControl_BarrierMovingState(chip::DeviceProxy * device,
+                                                                                           chip::EndpointId ZCLendpointId,
+                                                                                           uint16_t minInterval,
+                                                                                           uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BarrierControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeBarrierMovingState(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                              maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_BarrierControl_BarrierSafetyStatus(chip::DeviceProxy * device,
                                                                                        chip::EndpointId ZCLendpointId,
                                                                                        chip::GroupId /* ZCLgroupId */)
@@ -2175,6 +2390,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_BarrierControl_BarrierSafety
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_BarrierControl_BarrierSafetyStatus(chip::DeviceProxy * device,
+                                                                                            chip::EndpointId ZCLendpointId,
+                                                                                            uint16_t minInterval,
+                                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BarrierControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeBarrierSafetyStatus(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                               maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_BarrierControl_BarrierCapabilities(chip::DeviceProxy * device,
                                                                                        chip::EndpointId ZCLendpointId,
                                                                                        chip::GroupId /* ZCLgroupId */)
@@ -2185,6 +2414,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_BarrierControl_BarrierCapabi
     return cluster.ReadAttributeBarrierCapabilities(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_BarrierControl_BarrierCapabilities(chip::DeviceProxy * device,
+                                                                                            chip::EndpointId ZCLendpointId,
+                                                                                            uint16_t minInterval,
+                                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BarrierControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeBarrierCapabilities(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                               maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_BarrierControl_BarrierPosition(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -2195,6 +2438,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_BarrierControl_BarrierPositi
     return cluster.ReadAttributeBarrierPosition(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_BarrierControl_BarrierPosition(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BarrierControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeBarrierPosition(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_BarrierControl_ClusterRevision(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -2205,6 +2461,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_BarrierControl_ClusterRevisi
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_BarrierControl_ClusterRevision(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BarrierControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster BarrierControl
 // Cluster Basic
 
@@ -2219,6 +2488,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_InteractionModelVersio
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Basic_InteractionModelVersion(chip::DeviceProxy * device,
+                                                                                       chip::EndpointId ZCLendpointId,
+                                                                                       uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeInteractionModelVersion(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                   maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_VendorName(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                      chip::GroupId /* ZCLgroupId */)
 {
@@ -2228,6 +2510,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_VendorName(chip::Devic
     return cluster.ReadAttributeVendorName(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Basic_VendorName(chip::DeviceProxy * device,
+                                                                          chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                          uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeVendorName(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                      maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_VendorID(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                    chip::GroupId /* ZCLgroupId */)
 {
@@ -2237,6 +2532,17 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_VendorID(chip::DeviceP
     return cluster.ReadAttributeVendorID(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Basic_VendorID(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeVendorID(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_ProductName(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                       chip::GroupId /* ZCLgroupId */)
 {
@@ -2246,34 +2552,82 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_ProductName(chip::Devi
     return cluster.ReadAttributeProductName(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_ProductID(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
-                                                                    chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Basic_ProductName(chip::DeviceProxy * device,
+                                                                           chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                           uint16_t maxInterval)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::BasicCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeProductID(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster
+        .SubscribeAttributeProductName(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                       maxInterval)
+        .AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_UserLabel(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_ProductID(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                     chip::GroupId /* ZCLgroupId */)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::BasicCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeUserLabel(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster.ReadAttributeProductID(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_Location(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
-                                                                   chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Basic_ProductID(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::BasicCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeLocation(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster
+        .SubscribeAttributeProductID(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_HardwareVersion(chip::DeviceProxy * device,
+chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_UserLabel(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                    chip::GroupId /* ZCLgroupId */)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster.ReadAttributeUserLabel(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Basic_UserLabel(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeUserLabel(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                     maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_Location(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                   chip::GroupId /* ZCLgroupId */)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster.ReadAttributeLocation(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Basic_Location(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeLocation(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                    maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_HardwareVersion(chip::DeviceProxy * device,
                                                                           chip::EndpointId ZCLendpointId,
                                                                           chip::GroupId /* ZCLgroupId */)
 {
@@ -2283,6 +2637,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_HardwareVersion(chip::
     return cluster.ReadAttributeHardwareVersion(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Basic_HardwareVersion(chip::DeviceProxy * device,
+                                                                               chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeHardwareVersion(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_HardwareVersionString(chip::DeviceProxy * device,
                                                                                 chip::EndpointId ZCLendpointId,
                                                                                 chip::GroupId /* ZCLgroupId */)
@@ -2294,6 +2661,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_HardwareVersionString(
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Basic_HardwareVersionString(chip::DeviceProxy * device,
+                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                     uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeHardwareVersionString(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(),
+                                                 minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_SoftwareVersion(chip::DeviceProxy * device,
                                                                           chip::EndpointId ZCLendpointId,
                                                                           chip::GroupId /* ZCLgroupId */)
@@ -2304,6 +2684,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_SoftwareVersion(chip::
     return cluster.ReadAttributeSoftwareVersion(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Basic_SoftwareVersion(chip::DeviceProxy * device,
+                                                                               chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeSoftwareVersion(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_SoftwareVersionString(chip::DeviceProxy * device,
                                                                                 chip::EndpointId ZCLendpointId,
                                                                                 chip::GroupId /* ZCLgroupId */)
@@ -2315,6 +2708,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_SoftwareVersionString(
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Basic_SoftwareVersionString(chip::DeviceProxy * device,
+                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                     uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeSoftwareVersionString(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(),
+                                                 minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_ManufacturingDate(chip::DeviceProxy * device,
                                                                             chip::EndpointId ZCLendpointId,
                                                                             chip::GroupId /* ZCLgroupId */)
@@ -2326,6 +2732,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_ManufacturingDate(chip
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Basic_ManufacturingDate(chip::DeviceProxy * device,
+                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                 uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeManufacturingDate(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_PartNumber(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                      chip::GroupId /* ZCLgroupId */)
 {
@@ -2335,6 +2754,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_PartNumber(chip::Devic
     return cluster.ReadAttributePartNumber(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Basic_PartNumber(chip::DeviceProxy * device,
+                                                                          chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                          uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePartNumber(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                      maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_ProductURL(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                      chip::GroupId /* ZCLgroupId */)
 {
@@ -2344,6 +2776,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_ProductURL(chip::Devic
     return cluster.ReadAttributeProductURL(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Basic_ProductURL(chip::DeviceProxy * device,
+                                                                          chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                          uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeProductURL(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                      maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_ProductLabel(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                        chip::GroupId /* ZCLgroupId */)
 {
@@ -2353,6 +2798,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_ProductLabel(chip::Dev
     return cluster.ReadAttributeProductLabel(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Basic_ProductLabel(chip::DeviceProxy * device,
+                                                                            chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeProductLabel(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_SerialNumber(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                        chip::GroupId /* ZCLgroupId */)
 {
@@ -2362,6 +2820,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_SerialNumber(chip::Dev
     return cluster.ReadAttributeSerialNumber(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Basic_SerialNumber(chip::DeviceProxy * device,
+                                                                            chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeSerialNumber(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_LocalConfigDisabled(chip::DeviceProxy * device,
                                                                               chip::EndpointId ZCLendpointId,
                                                                               chip::GroupId /* ZCLgroupId */)
@@ -2373,6 +2844,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_LocalConfigDisabled(ch
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Basic_LocalConfigDisabled(chip::DeviceProxy * device,
+                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeLocalConfigDisabled(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                               maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_Reachable(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                     chip::GroupId /* ZCLgroupId */)
 {
@@ -2382,6 +2866,17 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_Reachable(chip::Device
     return cluster.ReadAttributeReachable(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Basic_Reachable(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeReachable(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_ClusterRevision(chip::DeviceProxy * device,
                                                                           chip::EndpointId ZCLendpointId,
                                                                           chip::GroupId /* ZCLgroupId */)
@@ -2392,6 +2887,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Basic_ClusterRevision(chip::
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Basic_ClusterRevision(chip::DeviceProxy * device,
+                                                                               chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster Basic
 // Cluster BinaryInputBasic
 
@@ -2405,6 +2913,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_BinaryInputBasic_OutOfServic
     return cluster.ReadAttributeOutOfService(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_BinaryInputBasic_OutOfService(chip::DeviceProxy * device,
+                                                                                       chip::EndpointId ZCLendpointId,
+                                                                                       uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BinaryInputBasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeOutOfService(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_BinaryInputBasic_PresentValue(chip::DeviceProxy * device,
                                                                                   chip::EndpointId ZCLendpointId,
                                                                                   chip::GroupId /* ZCLgroupId */)
@@ -2460,6 +2981,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_BinaryInputBasic_ClusterRevi
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_BinaryInputBasic_ClusterRevision(chip::DeviceProxy * device,
+                                                                                          chip::EndpointId ZCLendpointId,
+                                                                                          uint16_t minInterval,
+                                                                                          uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BinaryInputBasicCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster BinaryInputBasic
 // Cluster Binding
 
@@ -2473,6 +3008,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Binding_ClusterRevision(chip
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Binding_ClusterRevision(chip::DeviceProxy * device,
+                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                 uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BindingCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster Binding
 // Cluster BooleanState
 
@@ -2509,6 +3057,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_BooleanState_ClusterRevision
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_BooleanState_ClusterRevision(chip::DeviceProxy * device,
+                                                                                      chip::EndpointId ZCLendpointId,
+                                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BooleanStateCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster BooleanState
 // Cluster BridgedActions
 
@@ -2546,6 +3107,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_BridgedActions_SetupUrl(chip
     return cluster.ReadAttributeSetupUrl(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_BridgedActions_SetupUrl(chip::DeviceProxy * device,
+                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                 uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BridgedActionsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeSetupUrl(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                    maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_BridgedActions_ClusterRevision(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -2556,6 +3130,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_BridgedActions_ClusterRevisi
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_BridgedActions_ClusterRevision(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BridgedActionsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster BridgedActions
 // Cluster BridgedDeviceBasicInformation
 
@@ -2569,6 +3156,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_BridgedDeviceBasicInformatio
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_BridgedDeviceBasicInformation_ClusterRevision(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::BridgedDeviceBasicInformationCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster BridgedDeviceBasicInformation
 // Cluster ColorControl
 
@@ -2627,6 +3226,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_RemainingTime(c
     return cluster.ReadAttributeRemainingTime(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_RemainingTime(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRemainingTime(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_CurrentX(chip::DeviceProxy * device,
                                                                           chip::EndpointId ZCLendpointId,
                                                                           chip::GroupId /* ZCLgroupId */)
@@ -2681,18 +3293,44 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_DriftCompensati
     return cluster.ReadAttributeDriftCompensation(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_CompensationText(chip::DeviceProxy * device,
-                                                                                  chip::EndpointId ZCLendpointId,
-                                                                                  chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_DriftCompensation(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::ColorControlCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeCompensationText(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel())
+    return cluster
+        .SubscribeAttributeDriftCompensation(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
         .AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorTemperature(chip::DeviceProxy * device,
+chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_CompensationText(chip::DeviceProxy * device,
+                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                  chip::GroupId /* ZCLgroupId */)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster.ReadAttributeCompensationText(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel())
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_CompensationText(chip::DeviceProxy * device,
+                                                                                       chip::EndpointId ZCLendpointId,
+                                                                                       uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCompensationText(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorTemperature(chip::DeviceProxy * device,
                                                                                   chip::EndpointId ZCLendpointId,
                                                                                   chip::GroupId /* ZCLgroupId */)
 {
@@ -2725,6 +3363,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorMode(chip:
     return cluster.ReadAttributeColorMode(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ColorMode(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeColorMode(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorControlOptions(chip::DeviceProxy * device,
                                                                                      chip::EndpointId ZCLendpointId,
                                                                                      chip::GroupId /* ZCLgroupId */)
@@ -2735,6 +3385,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorControlOpt
     return cluster.ReadAttributeColorControlOptions(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ColorControlOptions(chip::DeviceProxy * device,
+                                                                                          chip::EndpointId ZCLendpointId,
+                                                                                          uint16_t minInterval,
+                                                                                          uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeColorControlOptions(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                               maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_NumberOfPrimaries(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -2745,6 +3409,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_NumberOfPrimari
     return cluster.ReadAttributeNumberOfPrimaries(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_NumberOfPrimaries(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNumberOfPrimaries(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary1X(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -2755,6 +3432,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary1X(chip:
     return cluster.ReadAttributePrimary1X(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_Primary1X(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePrimary1X(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary1Y(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -2765,6 +3454,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary1Y(chip:
     return cluster.ReadAttributePrimary1Y(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_Primary1Y(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePrimary1Y(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary1Intensity(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -2775,6 +3476,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary1Intensi
     return cluster.ReadAttributePrimary1Intensity(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_Primary1Intensity(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePrimary1Intensity(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary2X(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -2785,6 +3499,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary2X(chip:
     return cluster.ReadAttributePrimary2X(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_Primary2X(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePrimary2X(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary2Y(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -2795,6 +3521,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary2Y(chip:
     return cluster.ReadAttributePrimary2Y(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_Primary2Y(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePrimary2Y(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary2Intensity(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -2805,6 +3543,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary2Intensi
     return cluster.ReadAttributePrimary2Intensity(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_Primary2Intensity(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePrimary2Intensity(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary3X(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -2815,6 +3566,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary3X(chip:
     return cluster.ReadAttributePrimary3X(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_Primary3X(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePrimary3X(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary3Y(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -2825,6 +3588,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary3Y(chip:
     return cluster.ReadAttributePrimary3Y(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_Primary3Y(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePrimary3Y(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary3Intensity(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -2835,6 +3610,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary3Intensi
     return cluster.ReadAttributePrimary3Intensity(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_Primary3Intensity(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePrimary3Intensity(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary4X(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -2845,6 +3633,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary4X(chip:
     return cluster.ReadAttributePrimary4X(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_Primary4X(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePrimary4X(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary4Y(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -2855,6 +3655,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary4Y(chip:
     return cluster.ReadAttributePrimary4Y(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_Primary4Y(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePrimary4Y(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary4Intensity(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -2865,6 +3677,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary4Intensi
     return cluster.ReadAttributePrimary4Intensity(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_Primary4Intensity(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePrimary4Intensity(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary5X(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -2875,6 +3700,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary5X(chip:
     return cluster.ReadAttributePrimary5X(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_Primary5X(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePrimary5X(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary5Y(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -2885,6 +3722,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary5Y(chip:
     return cluster.ReadAttributePrimary5Y(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_Primary5Y(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePrimary5Y(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary5Intensity(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -2895,6 +3744,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary5Intensi
     return cluster.ReadAttributePrimary5Intensity(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_Primary5Intensity(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePrimary5Intensity(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary6X(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -2905,6 +3767,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary6X(chip:
     return cluster.ReadAttributePrimary6X(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_Primary6X(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePrimary6X(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary6Y(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -2915,6 +3789,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary6Y(chip:
     return cluster.ReadAttributePrimary6Y(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_Primary6Y(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePrimary6Y(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary6Intensity(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -2925,6 +3811,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_Primary6Intensi
     return cluster.ReadAttributePrimary6Intensity(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_Primary6Intensity(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePrimary6Intensity(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_WhitePointX(chip::DeviceProxy * device,
                                                                              chip::EndpointId ZCLendpointId,
                                                                              chip::GroupId /* ZCLgroupId */)
@@ -2935,6 +3834,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_WhitePointX(chi
     return cluster.ReadAttributeWhitePointX(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_WhitePointX(chip::DeviceProxy * device,
+                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                  uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeWhitePointX(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                       maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_WhitePointY(chip::DeviceProxy * device,
                                                                              chip::EndpointId ZCLendpointId,
                                                                              chip::GroupId /* ZCLgroupId */)
@@ -2945,14 +3857,40 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_WhitePointY(chi
     return cluster.ReadAttributeWhitePointY(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorPointRX(chip::DeviceProxy * device,
-                                                                              chip::EndpointId ZCLendpointId,
-                                                                              chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_WhitePointY(chip::DeviceProxy * device,
+                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                  uint16_t minInterval, uint16_t maxInterval)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::ColorControlCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeColorPointRX(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster
+        .SubscribeAttributeWhitePointY(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                       maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorPointRX(chip::DeviceProxy * device,
+                                                                              chip::EndpointId ZCLendpointId,
+                                                                              chip::GroupId /* ZCLgroupId */)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster.ReadAttributeColorPointRX(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ColorPointRX(chip::DeviceProxy * device,
+                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeColorPointRX(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
 }
 
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorPointRY(chip::DeviceProxy * device,
@@ -2965,6 +3903,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorPointRY(ch
     return cluster.ReadAttributeColorPointRY(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ColorPointRY(chip::DeviceProxy * device,
+                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeColorPointRY(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorPointRIntensity(chip::DeviceProxy * device,
                                                                                       chip::EndpointId ZCLendpointId,
                                                                                       chip::GroupId /* ZCLgroupId */)
@@ -2976,6 +3927,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorPointRInte
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ColorPointRIntensity(chip::DeviceProxy * device,
+                                                                                           chip::EndpointId ZCLendpointId,
+                                                                                           uint16_t minInterval,
+                                                                                           uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeColorPointRIntensity(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorPointGX(chip::DeviceProxy * device,
                                                                               chip::EndpointId ZCLendpointId,
                                                                               chip::GroupId /* ZCLgroupId */)
@@ -2986,6 +3951,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorPointGX(ch
     return cluster.ReadAttributeColorPointGX(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ColorPointGX(chip::DeviceProxy * device,
+                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeColorPointGX(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorPointGY(chip::DeviceProxy * device,
                                                                               chip::EndpointId ZCLendpointId,
                                                                               chip::GroupId /* ZCLgroupId */)
@@ -2996,6 +3974,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorPointGY(ch
     return cluster.ReadAttributeColorPointGY(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ColorPointGY(chip::DeviceProxy * device,
+                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeColorPointGY(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorPointGIntensity(chip::DeviceProxy * device,
                                                                                       chip::EndpointId ZCLendpointId,
                                                                                       chip::GroupId /* ZCLgroupId */)
@@ -3007,6 +3998,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorPointGInte
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ColorPointGIntensity(chip::DeviceProxy * device,
+                                                                                           chip::EndpointId ZCLendpointId,
+                                                                                           uint16_t minInterval,
+                                                                                           uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeColorPointGIntensity(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorPointBX(chip::DeviceProxy * device,
                                                                               chip::EndpointId ZCLendpointId,
                                                                               chip::GroupId /* ZCLgroupId */)
@@ -3017,6 +4022,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorPointBX(ch
     return cluster.ReadAttributeColorPointBX(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ColorPointBX(chip::DeviceProxy * device,
+                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeColorPointBX(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorPointBY(chip::DeviceProxy * device,
                                                                               chip::EndpointId ZCLendpointId,
                                                                               chip::GroupId /* ZCLgroupId */)
@@ -3027,6 +4045,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorPointBY(ch
     return cluster.ReadAttributeColorPointBY(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ColorPointBY(chip::DeviceProxy * device,
+                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeColorPointBY(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorPointBIntensity(chip::DeviceProxy * device,
                                                                                       chip::EndpointId ZCLendpointId,
                                                                                       chip::GroupId /* ZCLgroupId */)
@@ -3038,6 +4069,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorPointBInte
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ColorPointBIntensity(chip::DeviceProxy * device,
+                                                                                           chip::EndpointId ZCLendpointId,
+                                                                                           uint16_t minInterval,
+                                                                                           uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeColorPointBIntensity(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_EnhancedCurrentHue(chip::DeviceProxy * device,
                                                                                     chip::EndpointId ZCLendpointId,
                                                                                     chip::GroupId /* ZCLgroupId */)
@@ -3048,6 +4093,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_EnhancedCurrent
     return cluster.ReadAttributeEnhancedCurrentHue(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_EnhancedCurrentHue(chip::DeviceProxy * device,
+                                                                                         chip::EndpointId ZCLendpointId,
+                                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeEnhancedCurrentHue(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                              maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_EnhancedColorMode(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -3058,6 +4116,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_EnhancedColorMo
     return cluster.ReadAttributeEnhancedColorMode(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_EnhancedColorMode(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeEnhancedColorMode(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorLoopActive(chip::DeviceProxy * device,
                                                                                  chip::EndpointId ZCLendpointId,
                                                                                  chip::GroupId /* ZCLgroupId */)
@@ -3068,6 +4139,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorLoopActive
     return cluster.ReadAttributeColorLoopActive(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ColorLoopActive(chip::DeviceProxy * device,
+                                                                                      chip::EndpointId ZCLendpointId,
+                                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeColorLoopActive(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorLoopDirection(chip::DeviceProxy * device,
                                                                                     chip::EndpointId ZCLendpointId,
                                                                                     chip::GroupId /* ZCLgroupId */)
@@ -3078,6 +4162,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorLoopDirect
     return cluster.ReadAttributeColorLoopDirection(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ColorLoopDirection(chip::DeviceProxy * device,
+                                                                                         chip::EndpointId ZCLendpointId,
+                                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeColorLoopDirection(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                              maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorLoopTime(chip::DeviceProxy * device,
                                                                                chip::EndpointId ZCLendpointId,
                                                                                chip::GroupId /* ZCLgroupId */)
@@ -3088,6 +4185,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorLoopTime(c
     return cluster.ReadAttributeColorLoopTime(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ColorLoopTime(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeColorLoopTime(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorLoopStartEnhancedHue(chip::DeviceProxy * device,
                                                                                            chip::EndpointId ZCLendpointId,
                                                                                            chip::GroupId /* ZCLgroupId */)
@@ -3099,6 +4209,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorLoopStartE
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ColorLoopStartEnhancedHue(chip::DeviceProxy * device,
+                                                                                                chip::EndpointId ZCLendpointId,
+                                                                                                uint16_t minInterval,
+                                                                                                uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeColorLoopStartEnhancedHue(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(),
+                                                     minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorLoopStoredEnhancedHue(chip::DeviceProxy * device,
                                                                                             chip::EndpointId ZCLendpointId,
                                                                                             chip::GroupId /* ZCLgroupId */)
@@ -3110,6 +4234,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorLoopStored
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ColorLoopStoredEnhancedHue(chip::DeviceProxy * device,
+                                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                                 uint16_t minInterval,
+                                                                                                 uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeColorLoopStoredEnhancedHue(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(),
+                                                      minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorCapabilities(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -3120,6 +4258,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorCapabiliti
     return cluster.ReadAttributeColorCapabilities(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ColorCapabilities(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeColorCapabilities(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorTempPhysicalMin(chip::DeviceProxy * device,
                                                                                       chip::EndpointId ZCLendpointId,
                                                                                       chip::GroupId /* ZCLgroupId */)
@@ -3131,6 +4282,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorTempPhysic
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ColorTempPhysicalMin(chip::DeviceProxy * device,
+                                                                                           chip::EndpointId ZCLendpointId,
+                                                                                           uint16_t minInterval,
+                                                                                           uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeColorTempPhysicalMin(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorTempPhysicalMax(chip::DeviceProxy * device,
                                                                                       chip::EndpointId ZCLendpointId,
                                                                                       chip::GroupId /* ZCLgroupId */)
@@ -3142,6 +4307,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ColorTempPhysic
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ColorTempPhysicalMax(chip::DeviceProxy * device,
+                                                                                           chip::EndpointId ZCLendpointId,
+                                                                                           uint16_t minInterval,
+                                                                                           uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeColorTempPhysicalMax(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_CoupleColorTempToLevelMinMireds(chip::DeviceProxy * device,
                                                                                                  chip::EndpointId ZCLendpointId,
                                                                                                  chip::GroupId /* ZCLgroupId */)
@@ -3153,6 +4332,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_CoupleColorTemp
         .AsInteger();
 }
 
+chip::ChipError::StorageType
+chip_ime_SubscribeAttribute_ColorControl_CoupleColorTempToLevelMinMireds(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCoupleColorTempToLevelMinMireds(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(),
+                                                           minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_StartUpColorTemperatureMireds(chip::DeviceProxy * device,
                                                                                                chip::EndpointId ZCLendpointId,
                                                                                                chip::GroupId /* ZCLgroupId */)
@@ -3164,6 +4356,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_StartUpColorTem
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_StartUpColorTemperatureMireds(chip::DeviceProxy * device,
+                                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                                    uint16_t minInterval,
+                                                                                                    uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeStartUpColorTemperatureMireds(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(),
+                                                         minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ClusterRevision(chip::DeviceProxy * device,
                                                                                  chip::EndpointId ZCLendpointId,
                                                                                  chip::GroupId /* ZCLgroupId */)
@@ -3174,6 +4380,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ColorControl_ClusterRevision
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ColorControl_ClusterRevision(chip::DeviceProxy * device,
+                                                                                      chip::EndpointId ZCLendpointId,
+                                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ColorControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster ColorControl
 // Cluster ContentLauncher
 
@@ -3213,6 +4432,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ContentLauncher_ClusterRevis
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ContentLauncher_ClusterRevision(chip::DeviceProxy * device,
+                                                                                         chip::EndpointId ZCLendpointId,
+                                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ContentLauncherCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster ContentLauncher
 // Cluster Descriptor
 
@@ -3269,7 +4501,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Descriptor_ClusterRevision(c
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-// End of Cluster Descriptor
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Descriptor_ClusterRevision(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::DescriptorCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
+// End of Cluster Descriptor
 // Cluster DiagnosticLogs
 
 // End of Cluster DiagnosticLogs
@@ -3305,6 +4550,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_DoorLock_LockType(chip::Devi
     return cluster.ReadAttributeLockType(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_DoorLock_LockType(chip::DeviceProxy * device,
+                                                                           chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                           uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::DoorLockCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeLockType(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_DoorLock_ActuatorEnabled(chip::DeviceProxy * device,
                                                                              chip::EndpointId ZCLendpointId,
                                                                              chip::GroupId /* ZCLgroupId */)
@@ -3315,6 +4572,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_DoorLock_ActuatorEnabled(chi
     return cluster.ReadAttributeActuatorEnabled(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_DoorLock_ActuatorEnabled(chip::DeviceProxy * device,
+                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                  uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::DoorLockCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeActuatorEnabled(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_DoorLock_ClusterRevision(chip::DeviceProxy * device,
                                                                              chip::EndpointId ZCLendpointId,
                                                                              chip::GroupId /* ZCLgroupId */)
@@ -3325,6 +4595,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_DoorLock_ClusterRevision(chi
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_DoorLock_ClusterRevision(chip::DeviceProxy * device,
+                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                  uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::DoorLockCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster DoorLock
 // Cluster ElectricalMeasurement
 
@@ -3338,6 +4621,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_Measur
     return cluster.ReadAttributeMeasurementType(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ElectricalMeasurement_MeasurementType(chip::DeviceProxy * device,
+                                                                                               chip::EndpointId ZCLendpointId,
+                                                                                               uint16_t minInterval,
+                                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ElectricalMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMeasurementType(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_TotalActivePower(chip::DeviceProxy * device,
                                                                                            chip::EndpointId ZCLendpointId,
                                                                                            chip::GroupId /* ZCLgroupId */)
@@ -3348,6 +4645,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_TotalA
     return cluster.ReadAttributeTotalActivePower(gInt32sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ElectricalMeasurement_TotalActivePower(chip::DeviceProxy * device,
+                                                                                                chip::EndpointId ZCLendpointId,
+                                                                                                uint16_t minInterval,
+                                                                                                uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ElectricalMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTotalActivePower(gInt32sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_RmsVoltage(chip::DeviceProxy * device,
                                                                                      chip::EndpointId ZCLendpointId,
                                                                                      chip::GroupId /* ZCLgroupId */)
@@ -3358,6 +4669,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_RmsVol
     return cluster.ReadAttributeRmsVoltage(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsVoltage(chip::DeviceProxy * device,
+                                                                                          chip::EndpointId ZCLendpointId,
+                                                                                          uint16_t minInterval,
+                                                                                          uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ElectricalMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRmsVoltage(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_RmsVoltageMin(chip::DeviceProxy * device,
                                                                                         chip::EndpointId ZCLendpointId,
                                                                                         chip::GroupId /* ZCLgroupId */)
@@ -3368,6 +4692,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_RmsVol
     return cluster.ReadAttributeRmsVoltageMin(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsVoltageMin(chip::DeviceProxy * device,
+                                                                                             chip::EndpointId ZCLendpointId,
+                                                                                             uint16_t minInterval,
+                                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ElectricalMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRmsVoltageMin(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_RmsVoltageMax(chip::DeviceProxy * device,
                                                                                         chip::EndpointId ZCLendpointId,
                                                                                         chip::GroupId /* ZCLgroupId */)
@@ -3378,6 +4716,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_RmsVol
     return cluster.ReadAttributeRmsVoltageMax(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsVoltageMax(chip::DeviceProxy * device,
+                                                                                             chip::EndpointId ZCLendpointId,
+                                                                                             uint16_t minInterval,
+                                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ElectricalMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRmsVoltageMax(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_RmsCurrent(chip::DeviceProxy * device,
                                                                                      chip::EndpointId ZCLendpointId,
                                                                                      chip::GroupId /* ZCLgroupId */)
@@ -3388,6 +4740,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_RmsCur
     return cluster.ReadAttributeRmsCurrent(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsCurrent(chip::DeviceProxy * device,
+                                                                                          chip::EndpointId ZCLendpointId,
+                                                                                          uint16_t minInterval,
+                                                                                          uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ElectricalMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRmsCurrent(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_RmsCurrentMin(chip::DeviceProxy * device,
                                                                                         chip::EndpointId ZCLendpointId,
                                                                                         chip::GroupId /* ZCLgroupId */)
@@ -3398,6 +4763,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_RmsCur
     return cluster.ReadAttributeRmsCurrentMin(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsCurrentMin(chip::DeviceProxy * device,
+                                                                                             chip::EndpointId ZCLendpointId,
+                                                                                             uint16_t minInterval,
+                                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ElectricalMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRmsCurrentMin(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_RmsCurrentMax(chip::DeviceProxy * device,
                                                                                         chip::EndpointId ZCLendpointId,
                                                                                         chip::GroupId /* ZCLgroupId */)
@@ -3408,6 +4787,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_RmsCur
     return cluster.ReadAttributeRmsCurrentMax(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsCurrentMax(chip::DeviceProxy * device,
+                                                                                             chip::EndpointId ZCLendpointId,
+                                                                                             uint16_t minInterval,
+                                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ElectricalMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRmsCurrentMax(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_ActivePower(chip::DeviceProxy * device,
                                                                                       chip::EndpointId ZCLendpointId,
                                                                                       chip::GroupId /* ZCLgroupId */)
@@ -3418,6 +4811,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_Active
     return cluster.ReadAttributeActivePower(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ElectricalMeasurement_ActivePower(chip::DeviceProxy * device,
+                                                                                           chip::EndpointId ZCLendpointId,
+                                                                                           uint16_t minInterval,
+                                                                                           uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ElectricalMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeActivePower(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                       maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_ActivePowerMin(chip::DeviceProxy * device,
                                                                                          chip::EndpointId ZCLendpointId,
                                                                                          chip::GroupId /* ZCLgroupId */)
@@ -3428,6 +4835,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_Active
     return cluster.ReadAttributeActivePowerMin(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ElectricalMeasurement_ActivePowerMin(chip::DeviceProxy * device,
+                                                                                              chip::EndpointId ZCLendpointId,
+                                                                                              uint16_t minInterval,
+                                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ElectricalMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeActivePowerMin(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_ActivePowerMax(chip::DeviceProxy * device,
                                                                                          chip::EndpointId ZCLendpointId,
                                                                                          chip::GroupId /* ZCLgroupId */)
@@ -3438,6 +4859,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_Active
     return cluster.ReadAttributeActivePowerMax(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ElectricalMeasurement_ActivePowerMax(chip::DeviceProxy * device,
+                                                                                              chip::EndpointId ZCLendpointId,
+                                                                                              uint16_t minInterval,
+                                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ElectricalMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeActivePowerMax(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_ClusterRevision(chip::DeviceProxy * device,
                                                                                           chip::EndpointId ZCLendpointId,
                                                                                           chip::GroupId /* ZCLgroupId */)
@@ -3448,6 +4883,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ElectricalMeasurement_Cluste
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ElectricalMeasurement_ClusterRevision(chip::DeviceProxy * device,
+                                                                                               chip::EndpointId ZCLendpointId,
+                                                                                               uint16_t minInterval,
+                                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ElectricalMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster ElectricalMeasurement
 // Cluster EthernetNetworkDiagnostics
 
@@ -3461,6 +4910,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_P
     return cluster.ReadAttributePHYRate(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_PHYRate(chip::DeviceProxy * device,
+                                                                                            chip::EndpointId ZCLendpointId,
+                                                                                            uint16_t minInterval,
+                                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePHYRate(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_FullDuplex(chip::DeviceProxy * device,
                                                                                           chip::EndpointId ZCLendpointId,
                                                                                           chip::GroupId /* ZCLgroupId */)
@@ -3471,6 +4933,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_F
     return cluster.ReadAttributeFullDuplex(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_FullDuplex(chip::DeviceProxy * device,
+                                                                                               chip::EndpointId ZCLendpointId,
+                                                                                               uint16_t minInterval,
+                                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeFullDuplex(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                      maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_PacketRxCount(chip::DeviceProxy * device,
                                                                                              chip::EndpointId ZCLendpointId,
                                                                                              chip::GroupId /* ZCLgroupId */)
@@ -3481,6 +4957,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_P
     return cluster.ReadAttributePacketRxCount(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_PacketRxCount(chip::DeviceProxy * device,
+                                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                                  uint16_t minInterval,
+                                                                                                  uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePacketRxCount(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_PacketTxCount(chip::DeviceProxy * device,
                                                                                              chip::EndpointId ZCLendpointId,
                                                                                              chip::GroupId /* ZCLgroupId */)
@@ -3491,6 +4981,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_P
     return cluster.ReadAttributePacketTxCount(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_PacketTxCount(chip::DeviceProxy * device,
+                                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                                  uint16_t minInterval,
+                                                                                                  uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePacketTxCount(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_TxErrCount(chip::DeviceProxy * device,
                                                                                           chip::EndpointId ZCLendpointId,
                                                                                           chip::GroupId /* ZCLgroupId */)
@@ -3501,6 +5005,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_T
     return cluster.ReadAttributeTxErrCount(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_TxErrCount(chip::DeviceProxy * device,
+                                                                                               chip::EndpointId ZCLendpointId,
+                                                                                               uint16_t minInterval,
+                                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTxErrCount(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_CollisionCount(chip::DeviceProxy * device,
                                                                                               chip::EndpointId ZCLendpointId,
                                                                                               chip::GroupId /* ZCLgroupId */)
@@ -3511,6 +5028,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_C
     return cluster.ReadAttributeCollisionCount(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_CollisionCount(chip::DeviceProxy * device,
+                                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                                   uint16_t minInterval,
+                                                                                                   uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCollisionCount(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_OverrunCount(chip::DeviceProxy * device,
                                                                                             chip::EndpointId ZCLendpointId,
                                                                                             chip::GroupId /* ZCLgroupId */)
@@ -3521,6 +5052,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_O
     return cluster.ReadAttributeOverrunCount(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_OverrunCount(chip::DeviceProxy * device,
+                                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                                 uint16_t minInterval,
+                                                                                                 uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeOverrunCount(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_CarrierDetect(chip::DeviceProxy * device,
                                                                                              chip::EndpointId ZCLendpointId,
                                                                                              chip::GroupId /* ZCLgroupId */)
@@ -3531,6 +5076,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_C
     return cluster.ReadAttributeCarrierDetect(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_CarrierDetect(chip::DeviceProxy * device,
+                                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                                  uint16_t minInterval,
+                                                                                                  uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCarrierDetect(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_TimeSinceReset(chip::DeviceProxy * device,
                                                                                               chip::EndpointId ZCLendpointId,
                                                                                               chip::GroupId /* ZCLgroupId */)
@@ -3541,8 +5100,22 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_T
     return cluster.ReadAttributeTimeSinceReset(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_ClusterRevision(chip::DeviceProxy * device,
-                                                                                               chip::EndpointId ZCLendpointId,
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_TimeSinceReset(chip::DeviceProxy * device,
+                                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                                   uint16_t minInterval,
+                                                                                                   uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTimeSinceReset(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_ClusterRevision(chip::DeviceProxy * device,
+                                                                                               chip::EndpointId ZCLendpointId,
                                                                                                chip::GroupId /* ZCLgroupId */)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
@@ -3551,6 +5124,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_EthernetNetworkDiagnostics_C
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_ClusterRevision(chip::DeviceProxy * device,
+                                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                                    uint16_t minInterval,
+                                                                                                    uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster EthernetNetworkDiagnostics
 // Cluster FixedLabel
 
@@ -3574,6 +5161,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_FixedLabel_ClusterRevision(c
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_FixedLabel_ClusterRevision(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::FixedLabelCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster FixedLabel
 // Cluster FlowMeasurement
 
@@ -3587,6 +5187,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_FlowMeasurement_MeasuredValu
     return cluster.ReadAttributeMeasuredValue(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_FlowMeasurement_MeasuredValue(chip::DeviceProxy * device,
+                                                                                       chip::EndpointId ZCLendpointId,
+                                                                                       uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::FlowMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMeasuredValue(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_FlowMeasurement_MinMeasuredValue(chip::DeviceProxy * device,
                                                                                      chip::EndpointId ZCLendpointId,
                                                                                      chip::GroupId /* ZCLgroupId */)
@@ -3597,6 +5210,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_FlowMeasurement_MinMeasuredV
     return cluster.ReadAttributeMinMeasuredValue(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_FlowMeasurement_MinMeasuredValue(chip::DeviceProxy * device,
+                                                                                          chip::EndpointId ZCLendpointId,
+                                                                                          uint16_t minInterval,
+                                                                                          uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::FlowMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMinMeasuredValue(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_FlowMeasurement_MaxMeasuredValue(chip::DeviceProxy * device,
                                                                                      chip::EndpointId ZCLendpointId,
                                                                                      chip::GroupId /* ZCLgroupId */)
@@ -3607,6 +5234,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_FlowMeasurement_MaxMeasuredV
     return cluster.ReadAttributeMaxMeasuredValue(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_FlowMeasurement_MaxMeasuredValue(chip::DeviceProxy * device,
+                                                                                          chip::EndpointId ZCLendpointId,
+                                                                                          uint16_t minInterval,
+                                                                                          uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::FlowMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMaxMeasuredValue(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_FlowMeasurement_Tolerance(chip::DeviceProxy * device,
                                                                               chip::EndpointId ZCLendpointId,
                                                                               chip::GroupId /* ZCLgroupId */)
@@ -3617,6 +5258,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_FlowMeasurement_Tolerance(ch
     return cluster.ReadAttributeTolerance(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_FlowMeasurement_Tolerance(chip::DeviceProxy * device,
+                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::FlowMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTolerance(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_FlowMeasurement_ClusterRevision(chip::DeviceProxy * device,
                                                                                     chip::EndpointId ZCLendpointId,
                                                                                     chip::GroupId /* ZCLgroupId */)
@@ -3627,6 +5280,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_FlowMeasurement_ClusterRevis
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_FlowMeasurement_ClusterRevision(chip::DeviceProxy * device,
+                                                                                         chip::EndpointId ZCLendpointId,
+                                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::FlowMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster FlowMeasurement
 // Cluster GeneralCommissioning
 
@@ -3640,6 +5306,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_GeneralCommissioning_Breadcr
     return cluster.ReadAttributeBreadcrumb(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_GeneralCommissioning_Breadcrumb(chip::DeviceProxy * device,
+                                                                                         chip::EndpointId ZCLendpointId,
+                                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::GeneralCommissioningCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeBreadcrumb(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_GeneralCommissioning_BasicCommissioningInfoList(chip::DeviceProxy * device,
                                                                                                     chip::EndpointId ZCLendpointId,
                                                                                                     chip::GroupId /* ZCLgroupId */)
@@ -3663,6 +5341,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_GeneralCommissioning_Cluster
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_GeneralCommissioning_ClusterRevision(chip::DeviceProxy * device,
+                                                                                              chip::EndpointId ZCLendpointId,
+                                                                                              uint16_t minInterval,
+                                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::GeneralCommissioningCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster GeneralCommissioning
 // Cluster GeneralDiagnostics
 
@@ -3689,6 +5381,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_GeneralDiagnostics_RebootCou
     return cluster.ReadAttributeRebootCount(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_GeneralDiagnostics_RebootCount(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::GeneralDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRebootCount(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                       maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_GeneralDiagnostics_UpTime(chip::DeviceProxy * device,
                                                                               chip::EndpointId ZCLendpointId,
                                                                               chip::GroupId /* ZCLgroupId */)
@@ -3699,6 +5404,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_GeneralDiagnostics_UpTime(ch
     return cluster.ReadAttributeUpTime(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_GeneralDiagnostics_UpTime(chip::DeviceProxy * device,
+                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::GeneralDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeUpTime(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_GeneralDiagnostics_TotalOperationalHours(chip::DeviceProxy * device,
                                                                                              chip::EndpointId ZCLendpointId,
                                                                                              chip::GroupId /* ZCLgroupId */)
@@ -3710,6 +5427,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_GeneralDiagnostics_TotalOper
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_GeneralDiagnostics_TotalOperationalHours(chip::DeviceProxy * device,
+                                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                                  uint16_t minInterval,
+                                                                                                  uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::GeneralDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTotalOperationalHours(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                 maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_GeneralDiagnostics_BootReasons(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -3720,6 +5451,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_GeneralDiagnostics_BootReaso
     return cluster.ReadAttributeBootReasons(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_GeneralDiagnostics_BootReasons(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::GeneralDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeBootReasons(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_GeneralDiagnostics_ActiveHardwareFaults(chip::DeviceProxy * device,
                                                                                             chip::EndpointId ZCLendpointId,
                                                                                             chip::GroupId /* ZCLgroupId */)
@@ -3769,6 +5512,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_GeneralDiagnostics_ClusterRe
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_GeneralDiagnostics_ClusterRevision(chip::DeviceProxy * device,
+                                                                                            chip::EndpointId ZCLendpointId,
+                                                                                            uint16_t minInterval,
+                                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::GeneralDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster GeneralDiagnostics
 // Cluster GroupKeyManagement
 
@@ -3805,6 +5562,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_GroupKeyManagement_ClusterRe
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_GroupKeyManagement_ClusterRevision(chip::DeviceProxy * device,
+                                                                                            chip::EndpointId ZCLendpointId,
+                                                                                            uint16_t minInterval,
+                                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::GroupKeyManagementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster GroupKeyManagement
 // Cluster Groups
 
@@ -3817,6 +5588,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Groups_NameSupport(chip::Dev
     return cluster.ReadAttributeNameSupport(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Groups_NameSupport(chip::DeviceProxy * device,
+                                                                            chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::GroupsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNameSupport(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Groups_ClusterRevision(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -3827,6 +5610,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Groups_ClusterRevision(chip:
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Groups_ClusterRevision(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::GroupsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster Groups
 // Cluster Identify
 
@@ -3840,6 +5636,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Identify_IdentifyTime(chip::
     return cluster.ReadAttributeIdentifyTime(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Identify_IdentifyTime(chip::DeviceProxy * device,
+                                                                               chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::IdentifyCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeIdentifyTime(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Identify_IdentifyType(chip::DeviceProxy * device,
                                                                           chip::EndpointId ZCLendpointId,
                                                                           chip::GroupId /* ZCLgroupId */)
@@ -3850,6 +5659,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Identify_IdentifyType(chip::
     return cluster.ReadAttributeIdentifyType(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Identify_IdentifyType(chip::DeviceProxy * device,
+                                                                               chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::IdentifyCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeIdentifyType(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Identify_ClusterRevision(chip::DeviceProxy * device,
                                                                              chip::EndpointId ZCLendpointId,
                                                                              chip::GroupId /* ZCLgroupId */)
@@ -3860,6 +5682,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Identify_ClusterRevision(chi
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Identify_ClusterRevision(chip::DeviceProxy * device,
+                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                  uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::IdentifyCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster Identify
 // Cluster IlluminanceMeasurement
 
@@ -3897,6 +5732,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_IlluminanceMeasurement_MinMe
     return cluster.ReadAttributeMinMeasuredValue(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_IlluminanceMeasurement_MinMeasuredValue(chip::DeviceProxy * device,
+                                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                                 uint16_t minInterval,
+                                                                                                 uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::IlluminanceMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMinMeasuredValue(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_IlluminanceMeasurement_MaxMeasuredValue(chip::DeviceProxy * device,
                                                                                             chip::EndpointId ZCLendpointId,
                                                                                             chip::GroupId /* ZCLgroupId */)
@@ -3907,6 +5756,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_IlluminanceMeasurement_MaxMe
     return cluster.ReadAttributeMaxMeasuredValue(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_IlluminanceMeasurement_MaxMeasuredValue(chip::DeviceProxy * device,
+                                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                                 uint16_t minInterval,
+                                                                                                 uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::IlluminanceMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMaxMeasuredValue(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_IlluminanceMeasurement_Tolerance(chip::DeviceProxy * device,
                                                                                      chip::EndpointId ZCLendpointId,
                                                                                      chip::GroupId /* ZCLgroupId */)
@@ -3917,17 +5780,44 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_IlluminanceMeasurement_Toler
     return cluster.ReadAttributeTolerance(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_IlluminanceMeasurement_LightSensorType(chip::DeviceProxy * device,
-                                                                                           chip::EndpointId ZCLendpointId,
-                                                                                           chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_IlluminanceMeasurement_Tolerance(chip::DeviceProxy * device,
+                                                                                          chip::EndpointId ZCLendpointId,
+                                                                                          uint16_t minInterval,
+                                                                                          uint16_t maxInterval)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::IlluminanceMeasurementCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeLightSensorType(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster
+        .SubscribeAttributeTolerance(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_IlluminanceMeasurement_ClusterRevision(chip::DeviceProxy * device,
+chip::ChipError::StorageType chip_ime_ReadAttribute_IlluminanceMeasurement_LightSensorType(chip::DeviceProxy * device,
+                                                                                           chip::EndpointId ZCLendpointId,
+                                                                                           chip::GroupId /* ZCLgroupId */)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::IlluminanceMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster.ReadAttributeLightSensorType(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_IlluminanceMeasurement_LightSensorType(chip::DeviceProxy * device,
+                                                                                                chip::EndpointId ZCLendpointId,
+                                                                                                uint16_t minInterval,
+                                                                                                uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::IlluminanceMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeLightSensorType(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_IlluminanceMeasurement_ClusterRevision(chip::DeviceProxy * device,
                                                                                            chip::EndpointId ZCLendpointId,
                                                                                            chip::GroupId /* ZCLgroupId */)
 {
@@ -3937,6 +5827,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_IlluminanceMeasurement_Clust
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_IlluminanceMeasurement_ClusterRevision(chip::DeviceProxy * device,
+                                                                                                chip::EndpointId ZCLendpointId,
+                                                                                                uint16_t minInterval,
+                                                                                                uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::IlluminanceMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster IlluminanceMeasurement
 // Cluster KeypadInput
 
@@ -3950,6 +5854,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_KeypadInput_ClusterRevision(
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_KeypadInput_ClusterRevision(chip::DeviceProxy * device,
+                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                     uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::KeypadInputCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster KeypadInput
 // Cluster LevelControl
 
@@ -3986,6 +5903,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_RemainingTime(c
     return cluster.ReadAttributeRemainingTime(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_LevelControl_RemainingTime(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::LevelControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRemainingTime(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_MinLevel(chip::DeviceProxy * device,
                                                                           chip::EndpointId ZCLendpointId,
                                                                           chip::GroupId /* ZCLgroupId */)
@@ -3996,6 +5926,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_MinLevel(chip::
     return cluster.ReadAttributeMinLevel(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_LevelControl_MinLevel(chip::DeviceProxy * device,
+                                                                               chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::LevelControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMinLevel(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_MaxLevel(chip::DeviceProxy * device,
                                                                           chip::EndpointId ZCLendpointId,
                                                                           chip::GroupId /* ZCLgroupId */)
@@ -4006,6 +5948,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_MaxLevel(chip::
     return cluster.ReadAttributeMaxLevel(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_LevelControl_MaxLevel(chip::DeviceProxy * device,
+                                                                               chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::LevelControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMaxLevel(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_CurrentFrequency(chip::DeviceProxy * device,
                                                                                   chip::EndpointId ZCLendpointId,
                                                                                   chip::GroupId /* ZCLgroupId */)
@@ -4016,6 +5970,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_CurrentFrequenc
     return cluster.ReadAttributeCurrentFrequency(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_LevelControl_CurrentFrequency(chip::DeviceProxy * device,
+                                                                                       chip::EndpointId ZCLendpointId,
+                                                                                       uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::LevelControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCurrentFrequency(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_MinFrequency(chip::DeviceProxy * device,
                                                                               chip::EndpointId ZCLendpointId,
                                                                               chip::GroupId /* ZCLgroupId */)
@@ -4026,6 +5993,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_MinFrequency(ch
     return cluster.ReadAttributeMinFrequency(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_LevelControl_MinFrequency(chip::DeviceProxy * device,
+                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::LevelControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMinFrequency(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_MaxFrequency(chip::DeviceProxy * device,
                                                                               chip::EndpointId ZCLendpointId,
                                                                               chip::GroupId /* ZCLgroupId */)
@@ -4036,6 +6016,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_MaxFrequency(ch
     return cluster.ReadAttributeMaxFrequency(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_LevelControl_MaxFrequency(chip::DeviceProxy * device,
+                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::LevelControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMaxFrequency(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_Options(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                          chip::GroupId /* ZCLgroupId */)
 {
@@ -4045,6 +6038,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_Options(chip::D
     return cluster.ReadAttributeOptions(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_LevelControl_Options(chip::DeviceProxy * device,
+                                                                              chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::LevelControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeOptions(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_OnOffTransitionTime(chip::DeviceProxy * device,
                                                                                      chip::EndpointId ZCLendpointId,
                                                                                      chip::GroupId /* ZCLgroupId */)
@@ -4056,6 +6061,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_OnOffTransition
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_LevelControl_OnOffTransitionTime(chip::DeviceProxy * device,
+                                                                                          chip::EndpointId ZCLendpointId,
+                                                                                          uint16_t minInterval,
+                                                                                          uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::LevelControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeOnOffTransitionTime(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                               maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_OnLevel(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                          chip::GroupId /* ZCLgroupId */)
 {
@@ -4065,6 +6084,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_OnLevel(chip::D
     return cluster.ReadAttributeOnLevel(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_LevelControl_OnLevel(chip::DeviceProxy * device,
+                                                                              chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::LevelControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeOnLevel(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_OnTransitionTime(chip::DeviceProxy * device,
                                                                                   chip::EndpointId ZCLendpointId,
                                                                                   chip::GroupId /* ZCLgroupId */)
@@ -4075,6 +6106,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_OnTransitionTim
     return cluster.ReadAttributeOnTransitionTime(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_LevelControl_OnTransitionTime(chip::DeviceProxy * device,
+                                                                                       chip::EndpointId ZCLendpointId,
+                                                                                       uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::LevelControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeOnTransitionTime(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_OffTransitionTime(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -4085,6 +6129,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_OffTransitionTi
     return cluster.ReadAttributeOffTransitionTime(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_LevelControl_OffTransitionTime(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::LevelControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeOffTransitionTime(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_DefaultMoveRate(chip::DeviceProxy * device,
                                                                                  chip::EndpointId ZCLendpointId,
                                                                                  chip::GroupId /* ZCLgroupId */)
@@ -4095,6 +6152,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_DefaultMoveRate
     return cluster.ReadAttributeDefaultMoveRate(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_LevelControl_DefaultMoveRate(chip::DeviceProxy * device,
+                                                                                      chip::EndpointId ZCLendpointId,
+                                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::LevelControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeDefaultMoveRate(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_StartUpCurrentLevel(chip::DeviceProxy * device,
                                                                                      chip::EndpointId ZCLendpointId,
                                                                                      chip::GroupId /* ZCLgroupId */)
@@ -4105,6 +6175,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_StartUpCurrentL
     return cluster.ReadAttributeStartUpCurrentLevel(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_LevelControl_StartUpCurrentLevel(chip::DeviceProxy * device,
+                                                                                          chip::EndpointId ZCLendpointId,
+                                                                                          uint16_t minInterval,
+                                                                                          uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::LevelControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeStartUpCurrentLevel(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                               maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_ClusterRevision(chip::DeviceProxy * device,
                                                                                  chip::EndpointId ZCLendpointId,
                                                                                  chip::GroupId /* ZCLgroupId */)
@@ -4115,6 +6199,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_LevelControl_ClusterRevision
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_LevelControl_ClusterRevision(chip::DeviceProxy * device,
+                                                                                      chip::EndpointId ZCLendpointId,
+                                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::LevelControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster LevelControl
 // Cluster LowPower
 
@@ -4128,6 +6225,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_LowPower_ClusterRevision(chi
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_LowPower_ClusterRevision(chip::DeviceProxy * device,
+                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                  uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::LowPowerCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster LowPower
 // Cluster MediaInput
 
@@ -4153,6 +6263,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_MediaInput_CurrentMediaInput
     return cluster.ReadAttributeCurrentMediaInput(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_MediaInput_CurrentMediaInput(chip::DeviceProxy * device,
+                                                                                      chip::EndpointId ZCLendpointId,
+                                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::MediaInputCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCurrentMediaInput(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_MediaInput_ClusterRevision(chip::DeviceProxy * device,
                                                                                chip::EndpointId ZCLendpointId,
                                                                                chip::GroupId /* ZCLgroupId */)
@@ -4163,6 +6286,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_MediaInput_ClusterRevision(c
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_MediaInput_ClusterRevision(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::MediaInputCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster MediaInput
 // Cluster MediaPlayback
 
@@ -4176,54 +6312,129 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_MediaPlayback_PlaybackState(
     return cluster.ReadAttributePlaybackState(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_MediaPlayback_StartTime(chip::DeviceProxy * device,
-                                                                            chip::EndpointId ZCLendpointId,
-                                                                            chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_MediaPlayback_PlaybackState(chip::DeviceProxy * device,
+                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                     uint16_t minInterval, uint16_t maxInterval)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::MediaPlaybackCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeStartTime(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster
+        .SubscribeAttributePlaybackState(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_MediaPlayback_Duration(chip::DeviceProxy * device,
-                                                                           chip::EndpointId ZCLendpointId,
-                                                                           chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_ReadAttribute_MediaPlayback_StartTime(chip::DeviceProxy * device,
+                                                                            chip::EndpointId ZCLendpointId,
+                                                                            chip::GroupId /* ZCLgroupId */)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::MediaPlaybackCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeDuration(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster.ReadAttributeStartTime(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_MediaPlayback_PositionUpdatedAt(chip::DeviceProxy * device,
-                                                                                    chip::EndpointId ZCLendpointId,
-                                                                                    chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_MediaPlayback_StartTime(chip::DeviceProxy * device,
+                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                 uint16_t minInterval, uint16_t maxInterval)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::MediaPlaybackCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributePositionUpdatedAt(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster
+        .SubscribeAttributeStartTime(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_MediaPlayback_Position(chip::DeviceProxy * device,
+chip::ChipError::StorageType chip_ime_ReadAttribute_MediaPlayback_Duration(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::MediaPlaybackCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributePosition(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster.ReadAttributeDuration(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_MediaPlayback_PlaybackSpeed(chip::DeviceProxy * device,
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_MediaPlayback_Duration(chip::DeviceProxy * device,
                                                                                 chip::EndpointId ZCLendpointId,
-                                                                                chip::GroupId /* ZCLgroupId */)
+                                                                                uint16_t minInterval, uint16_t maxInterval)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::MediaPlaybackCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributePlaybackSpeed(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster
+        .SubscribeAttributeDuration(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_MediaPlayback_PositionUpdatedAt(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    chip::GroupId /* ZCLgroupId */)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::MediaPlaybackCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster.ReadAttributePositionUpdatedAt(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_MediaPlayback_PositionUpdatedAt(chip::DeviceProxy * device,
+                                                                                         chip::EndpointId ZCLendpointId,
+                                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::MediaPlaybackCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePositionUpdatedAt(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_MediaPlayback_Position(chip::DeviceProxy * device,
+                                                                           chip::EndpointId ZCLendpointId,
+                                                                           chip::GroupId /* ZCLgroupId */)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::MediaPlaybackCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster.ReadAttributePosition(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_MediaPlayback_Position(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::MediaPlaybackCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePosition(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_MediaPlayback_PlaybackSpeed(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                chip::GroupId /* ZCLgroupId */)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::MediaPlaybackCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster.ReadAttributePlaybackSpeed(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_MediaPlayback_PlaybackSpeed(chip::DeviceProxy * device,
+                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                     uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::MediaPlaybackCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePlaybackSpeed(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
 }
 
 chip::ChipError::StorageType chip_ime_ReadAttribute_MediaPlayback_SeekRangeEnd(chip::DeviceProxy * device,
@@ -4236,6 +6447,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_MediaPlayback_SeekRangeEnd(c
     return cluster.ReadAttributeSeekRangeEnd(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_MediaPlayback_SeekRangeEnd(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::MediaPlaybackCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeSeekRangeEnd(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_MediaPlayback_SeekRangeStart(chip::DeviceProxy * device,
                                                                                  chip::EndpointId ZCLendpointId,
                                                                                  chip::GroupId /* ZCLgroupId */)
@@ -4246,6 +6470,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_MediaPlayback_SeekRangeStart
     return cluster.ReadAttributeSeekRangeStart(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_MediaPlayback_SeekRangeStart(chip::DeviceProxy * device,
+                                                                                      chip::EndpointId ZCLendpointId,
+                                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::MediaPlaybackCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeSeekRangeStart(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_MediaPlayback_ClusterRevision(chip::DeviceProxy * device,
                                                                                   chip::EndpointId ZCLendpointId,
                                                                                   chip::GroupId /* ZCLgroupId */)
@@ -4256,6 +6493,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_MediaPlayback_ClusterRevisio
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_MediaPlayback_ClusterRevision(chip::DeviceProxy * device,
+                                                                                       chip::EndpointId ZCLendpointId,
+                                                                                       uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::MediaPlaybackCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster MediaPlayback
 // Cluster ModeSelect
 
@@ -4302,6 +6552,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ModeSelect_OnMode(chip::Devi
     return cluster.ReadAttributeOnMode(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ModeSelect_OnMode(chip::DeviceProxy * device,
+                                                                           chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                           uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ModeSelectCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeOnMode(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ModeSelect_StartUpMode(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -4312,6 +6574,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ModeSelect_StartUpMode(chip:
     return cluster.ReadAttributeStartUpMode(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ModeSelect_StartUpMode(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ModeSelectCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeStartUpMode(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ModeSelect_Description(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -4322,6 +6596,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ModeSelect_Description(chip:
     return cluster.ReadAttributeDescription(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ModeSelect_Description(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ModeSelectCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeDescription(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                       maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ModeSelect_ClusterRevision(chip::DeviceProxy * device,
                                                                                chip::EndpointId ZCLendpointId,
                                                                                chip::GroupId /* ZCLgroupId */)
@@ -4332,6 +6619,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ModeSelect_ClusterRevision(c
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ModeSelect_ClusterRevision(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ModeSelectCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster ModeSelect
 // Cluster NetworkCommissioning
 
@@ -4345,6 +6645,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_NetworkCommissioning_Feature
     return cluster.ReadAttributeFeatureMap(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_NetworkCommissioning_FeatureMap(chip::DeviceProxy * device,
+                                                                                         chip::EndpointId ZCLendpointId,
+                                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::NetworkCommissioningCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeFeatureMap(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_NetworkCommissioning_ClusterRevision(chip::DeviceProxy * device,
                                                                                          chip::EndpointId ZCLendpointId,
                                                                                          chip::GroupId /* ZCLgroupId */)
@@ -4355,6 +6667,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_NetworkCommissioning_Cluster
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_NetworkCommissioning_ClusterRevision(chip::DeviceProxy * device,
+                                                                                              chip::EndpointId ZCLendpointId,
+                                                                                              uint16_t minInterval,
+                                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::NetworkCommissioningCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster NetworkCommissioning
 // Cluster OtaSoftwareUpdateProvider
 
@@ -4368,6 +6694,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_OtaSoftwareUpdateProvider_Cl
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OtaSoftwareUpdateProvider_ClusterRevision(chip::DeviceProxy * device,
+                                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                                   uint16_t minInterval,
+                                                                                                   uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OtaSoftwareUpdateProviderCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster OtaSoftwareUpdateProvider
 // Cluster OtaSoftwareUpdateRequestor
 
@@ -4382,6 +6722,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_OtaSoftwareUpdateRequestor_D
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OtaSoftwareUpdateRequestor_DefaultOtaProvider(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OtaSoftwareUpdateRequestorCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeDefaultOtaProvider(gOctetStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                              maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_OtaSoftwareUpdateRequestor_UpdatePossible(chip::DeviceProxy * device,
                                                                                               chip::EndpointId ZCLendpointId,
                                                                                               chip::GroupId /* ZCLgroupId */)
@@ -4392,6 +6744,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_OtaSoftwareUpdateRequestor_U
     return cluster.ReadAttributeUpdatePossible(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OtaSoftwareUpdateRequestor_UpdatePossible(chip::DeviceProxy * device,
+                                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                                   uint16_t minInterval,
+                                                                                                   uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OtaSoftwareUpdateRequestorCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeUpdatePossible(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_OtaSoftwareUpdateRequestor_ClusterRevision(chip::DeviceProxy * device,
                                                                                                chip::EndpointId ZCLendpointId,
                                                                                                chip::GroupId /* ZCLgroupId */)
@@ -4402,6 +6768,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_OtaSoftwareUpdateRequestor_C
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OtaSoftwareUpdateRequestor_ClusterRevision(chip::DeviceProxy * device,
+                                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                                    uint16_t minInterval,
+                                                                                                    uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OtaSoftwareUpdateRequestorCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster OtaSoftwareUpdateRequestor
 // Cluster OccupancySensing
 
@@ -4437,6 +6817,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_OccupancySensing_OccupancySe
     return cluster.ReadAttributeOccupancySensorType(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OccupancySensing_OccupancySensorType(chip::DeviceProxy * device,
+                                                                                              chip::EndpointId ZCLendpointId,
+                                                                                              uint16_t minInterval,
+                                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OccupancySensingCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeOccupancySensorType(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                               maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_OccupancySensing_OccupancySensorTypeBitmap(chip::DeviceProxy * device,
                                                                                                chip::EndpointId ZCLendpointId,
                                                                                                chip::GroupId /* ZCLgroupId */)
@@ -4448,6 +6842,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_OccupancySensing_OccupancySe
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OccupancySensing_OccupancySensorTypeBitmap(chip::DeviceProxy * device,
+                                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                                    uint16_t minInterval,
+                                                                                                    uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OccupancySensingCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeOccupancySensorTypeBitmap(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(),
+                                                     minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_OccupancySensing_ClusterRevision(chip::DeviceProxy * device,
                                                                                      chip::EndpointId ZCLendpointId,
                                                                                      chip::GroupId /* ZCLgroupId */)
@@ -4458,6 +6866,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_OccupancySensing_ClusterRevi
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OccupancySensing_ClusterRevision(chip::DeviceProxy * device,
+                                                                                          chip::EndpointId ZCLendpointId,
+                                                                                          uint16_t minInterval,
+                                                                                          uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OccupancySensingCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster OccupancySensing
 // Cluster OnOff
 
@@ -4492,50 +6914,125 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_OnOff_GlobalSceneControl(chi
         .AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_OnOff_OnTime(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
-                                                                 chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OnOff_GlobalSceneControl(chip::DeviceProxy * device,
+                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                  uint16_t minInterval, uint16_t maxInterval)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::OnOffCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeOnTime(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster
+        .SubscribeAttributeGlobalSceneControl(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                              maxInterval)
+        .AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_OnOff_OffWaitTime(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
-                                                                      chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_ReadAttribute_OnOff_OnTime(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                 chip::GroupId /* ZCLgroupId */)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::OnOffCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeOffWaitTime(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster.ReadAttributeOnTime(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_OnOff_StartUpOnOff(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
-                                                                       chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OnOff_OnTime(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::OnOffCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeStartUpOnOff(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster
+        .SubscribeAttributeOnTime(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_OnOff_FeatureMap(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
-                                                                     chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_ReadAttribute_OnOff_OffWaitTime(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                      chip::GroupId /* ZCLgroupId */)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::OnOffCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeFeatureMap(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster.ReadAttributeOffWaitTime(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_OnOff_ClusterRevision(chip::DeviceProxy * device,
-                                                                          chip::EndpointId ZCLendpointId,
-                                                                          chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OnOff_OffWaitTime(chip::DeviceProxy * device,
+                                                                           chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                           uint16_t maxInterval)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::OnOffCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster
+        .SubscribeAttributeOffWaitTime(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                       maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_OnOff_StartUpOnOff(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                       chip::GroupId /* ZCLgroupId */)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OnOffCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster.ReadAttributeStartUpOnOff(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OnOff_StartUpOnOff(chip::DeviceProxy * device,
+                                                                            chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OnOffCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeStartUpOnOff(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_OnOff_FeatureMap(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                     chip::GroupId /* ZCLgroupId */)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OnOffCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster.ReadAttributeFeatureMap(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OnOff_FeatureMap(chip::DeviceProxy * device,
+                                                                          chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                          uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OnOffCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeFeatureMap(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_OnOff_ClusterRevision(chip::DeviceProxy * device,
+                                                                          chip::EndpointId ZCLendpointId,
+                                                                          chip::GroupId /* ZCLgroupId */)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OnOffCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OnOff_ClusterRevision(chip::DeviceProxy * device,
+                                                                               chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OnOffCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
 }
 
 // End of Cluster OnOff
@@ -4551,6 +7048,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_OnOffSwitchConfiguration_Swi
     return cluster.ReadAttributeSwitchType(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OnOffSwitchConfiguration_SwitchType(chip::DeviceProxy * device,
+                                                                                             chip::EndpointId ZCLendpointId,
+                                                                                             uint16_t minInterval,
+                                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OnOffSwitchConfigurationCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeSwitchType(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_OnOffSwitchConfiguration_SwitchActions(chip::DeviceProxy * device,
                                                                                            chip::EndpointId ZCLendpointId,
                                                                                            chip::GroupId /* ZCLgroupId */)
@@ -4561,6 +7071,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_OnOffSwitchConfiguration_Swi
     return cluster.ReadAttributeSwitchActions(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OnOffSwitchConfiguration_SwitchActions(chip::DeviceProxy * device,
+                                                                                                chip::EndpointId ZCLendpointId,
+                                                                                                uint16_t minInterval,
+                                                                                                uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OnOffSwitchConfigurationCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeSwitchActions(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_OnOffSwitchConfiguration_ClusterRevision(chip::DeviceProxy * device,
                                                                                              chip::EndpointId ZCLendpointId,
                                                                                              chip::GroupId /* ZCLgroupId */)
@@ -4571,6 +7095,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_OnOffSwitchConfiguration_Clu
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OnOffSwitchConfiguration_ClusterRevision(chip::DeviceProxy * device,
+                                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                                  uint16_t minInterval,
+                                                                                                  uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OnOffSwitchConfigurationCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster OnOffSwitchConfiguration
 // Cluster OperationalCredentials
 
@@ -4597,6 +7135,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_OperationalCredentials_Suppo
     return cluster.ReadAttributeSupportedFabrics(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OperationalCredentials_SupportedFabrics(chip::DeviceProxy * device,
+                                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                                 uint16_t minInterval,
+                                                                                                 uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OperationalCredentialsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeSupportedFabrics(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_OperationalCredentials_CommissionedFabrics(chip::DeviceProxy * device,
                                                                                                chip::EndpointId ZCLendpointId,
                                                                                                chip::GroupId /* ZCLgroupId */)
@@ -4607,6 +7159,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_OperationalCredentials_Commi
     return cluster.ReadAttributeCommissionedFabrics(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OperationalCredentials_CommissionedFabrics(chip::DeviceProxy * device,
+                                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                                    uint16_t minInterval,
+                                                                                                    uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OperationalCredentialsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCommissionedFabrics(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                               maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_OperationalCredentials_TrustedRootCertificates(chip::DeviceProxy * device,
                                                                                                    chip::EndpointId ZCLendpointId,
                                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -4630,6 +7196,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_OperationalCredentials_Curre
     return cluster.ReadAttributeCurrentFabricIndex(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OperationalCredentials_CurrentFabricIndex(chip::DeviceProxy * device,
+                                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                                   uint16_t minInterval,
+                                                                                                   uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OperationalCredentialsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCurrentFabricIndex(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                              maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_OperationalCredentials_ClusterRevision(chip::DeviceProxy * device,
                                                                                            chip::EndpointId ZCLendpointId,
                                                                                            chip::GroupId /* ZCLgroupId */)
@@ -4640,6 +7220,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_OperationalCredentials_Clust
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_OperationalCredentials_ClusterRevision(chip::DeviceProxy * device,
+                                                                                                chip::EndpointId ZCLendpointId,
+                                                                                                uint16_t minInterval,
+                                                                                                uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::OperationalCredentialsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster OperationalCredentials
 // Cluster PowerSource
 
@@ -4652,6 +7246,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PowerSource_Status(chip::Dev
     return cluster.ReadAttributeStatus(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PowerSource_Status(chip::DeviceProxy * device,
+                                                                            chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PowerSourceCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeStatus(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PowerSource_Order(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                       chip::GroupId /* ZCLgroupId */)
 {
@@ -4661,6 +7267,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PowerSource_Order(chip::Devi
     return cluster.ReadAttributeOrder(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PowerSource_Order(chip::DeviceProxy * device,
+                                                                           chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                           uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PowerSourceCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeOrder(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PowerSource_Description(chip::DeviceProxy * device,
                                                                             chip::EndpointId ZCLendpointId,
                                                                             chip::GroupId /* ZCLgroupId */)
@@ -4671,6 +7289,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PowerSource_Description(chip
     return cluster.ReadAttributeDescription(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PowerSource_Description(chip::DeviceProxy * device,
+                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                 uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PowerSourceCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeDescription(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                       maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PowerSource_BatteryVoltage(chip::DeviceProxy * device,
                                                                                chip::EndpointId ZCLendpointId,
                                                                                chip::GroupId /* ZCLgroupId */)
@@ -4681,6 +7312,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PowerSource_BatteryVoltage(c
     return cluster.ReadAttributeBatteryVoltage(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PowerSource_BatteryVoltage(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PowerSourceCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeBatteryVoltage(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PowerSource_BatteryPercentRemaining(chip::DeviceProxy * device,
                                                                                         chip::EndpointId ZCLendpointId,
                                                                                         chip::GroupId /* ZCLgroupId */)
@@ -4692,6 +7336,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PowerSource_BatteryPercentRe
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PowerSource_BatteryPercentRemaining(chip::DeviceProxy * device,
+                                                                                             chip::EndpointId ZCLendpointId,
+                                                                                             uint16_t minInterval,
+                                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PowerSourceCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeBatteryPercentRemaining(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                   maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PowerSource_BatteryTimeRemaining(chip::DeviceProxy * device,
                                                                                      chip::EndpointId ZCLendpointId,
                                                                                      chip::GroupId /* ZCLgroupId */)
@@ -4703,6 +7361,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PowerSource_BatteryTimeRemai
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PowerSource_BatteryTimeRemaining(chip::DeviceProxy * device,
+                                                                                          chip::EndpointId ZCLendpointId,
+                                                                                          uint16_t minInterval,
+                                                                                          uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PowerSourceCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeBatteryTimeRemaining(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PowerSource_BatteryChargeLevel(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -4713,6 +7385,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PowerSource_BatteryChargeLev
     return cluster.ReadAttributeBatteryChargeLevel(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PowerSource_BatteryChargeLevel(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PowerSourceCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeBatteryChargeLevel(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                              maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PowerSource_ActiveBatteryFaults(chip::DeviceProxy * device,
                                                                                     chip::EndpointId ZCLendpointId,
                                                                                     chip::GroupId /* ZCLgroupId */)
@@ -4736,6 +7421,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PowerSource_BatteryChargeSta
     return cluster.ReadAttributeBatteryChargeState(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PowerSource_BatteryChargeState(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PowerSourceCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeBatteryChargeState(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                              maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PowerSource_FeatureMap(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -4746,6 +7444,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PowerSource_FeatureMap(chip:
     return cluster.ReadAttributeFeatureMap(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PowerSource_FeatureMap(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PowerSourceCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeFeatureMap(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PowerSource_ClusterRevision(chip::DeviceProxy * device,
                                                                                 chip::EndpointId ZCLendpointId,
                                                                                 chip::GroupId /* ZCLgroupId */)
@@ -4756,6 +7466,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PowerSource_ClusterRevision(
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PowerSource_ClusterRevision(chip::DeviceProxy * device,
+                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                     uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PowerSourceCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster PowerSource
 // Cluster PressureMeasurement
 
@@ -4793,6 +7516,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PressureMeasurement_MinMeasu
     return cluster.ReadAttributeMinMeasuredValue(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PressureMeasurement_MinMeasuredValue(chip::DeviceProxy * device,
+                                                                                              chip::EndpointId ZCLendpointId,
+                                                                                              uint16_t minInterval,
+                                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PressureMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMinMeasuredValue(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PressureMeasurement_MaxMeasuredValue(chip::DeviceProxy * device,
                                                                                          chip::EndpointId ZCLendpointId,
                                                                                          chip::GroupId /* ZCLgroupId */)
@@ -4803,6 +7540,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PressureMeasurement_MaxMeasu
     return cluster.ReadAttributeMaxMeasuredValue(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PressureMeasurement_MaxMeasuredValue(chip::DeviceProxy * device,
+                                                                                              chip::EndpointId ZCLendpointId,
+                                                                                              uint16_t minInterval,
+                                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PressureMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMaxMeasuredValue(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PressureMeasurement_ClusterRevision(chip::DeviceProxy * device,
                                                                                         chip::EndpointId ZCLendpointId,
                                                                                         chip::GroupId /* ZCLgroupId */)
@@ -4813,6 +7564,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PressureMeasurement_ClusterR
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PressureMeasurement_ClusterRevision(chip::DeviceProxy * device,
+                                                                                             chip::EndpointId ZCLendpointId,
+                                                                                             uint16_t minInterval,
+                                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PressureMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster PressureMeasurement
 // Cluster PumpConfigurationAndControl
 
@@ -4826,6 +7591,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
     return cluster.ReadAttributeMaxPressure(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxPressure(chip::DeviceProxy * device,
+                                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                                 uint16_t minInterval,
+                                                                                                 uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMaxPressure(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                       maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxSpeed(chip::DeviceProxy * device,
                                                                                          chip::EndpointId ZCLendpointId,
                                                                                          chip::GroupId /* ZCLgroupId */)
@@ -4836,6 +7615,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
     return cluster.ReadAttributeMaxSpeed(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxSpeed(chip::DeviceProxy * device,
+                                                                                              chip::EndpointId ZCLendpointId,
+                                                                                              uint16_t minInterval,
+                                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMaxSpeed(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxFlow(chip::DeviceProxy * device,
                                                                                         chip::EndpointId ZCLendpointId,
                                                                                         chip::GroupId /* ZCLgroupId */)
@@ -4846,6 +7638,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
     return cluster.ReadAttributeMaxFlow(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxFlow(chip::DeviceProxy * device,
+                                                                                             chip::EndpointId ZCLendpointId,
+                                                                                             uint16_t minInterval,
+                                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMaxFlow(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_MinConstPressure(chip::DeviceProxy * device,
                                                                                                  chip::EndpointId ZCLendpointId,
                                                                                                  chip::GroupId /* ZCLgroupId */)
@@ -4856,6 +7661,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
     return cluster.ReadAttributeMinConstPressure(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType
+chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinConstPressure(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMinConstPressure(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxConstPressure(chip::DeviceProxy * device,
                                                                                                  chip::EndpointId ZCLendpointId,
                                                                                                  chip::GroupId /* ZCLgroupId */)
@@ -4866,6 +7684,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
     return cluster.ReadAttributeMaxConstPressure(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType
+chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxConstPressure(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMaxConstPressure(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_MinCompPressure(chip::DeviceProxy * device,
                                                                                                 chip::EndpointId ZCLendpointId,
                                                                                                 chip::GroupId /* ZCLgroupId */)
@@ -4876,6 +7707,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
     return cluster.ReadAttributeMinCompPressure(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinCompPressure(chip::DeviceProxy * device,
+                                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                                     uint16_t minInterval,
+                                                                                                     uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMinCompPressure(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxCompPressure(chip::DeviceProxy * device,
                                                                                                 chip::EndpointId ZCLendpointId,
                                                                                                 chip::GroupId /* ZCLgroupId */)
@@ -4886,6 +7731,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
     return cluster.ReadAttributeMaxCompPressure(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxCompPressure(chip::DeviceProxy * device,
+                                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                                     uint16_t minInterval,
+                                                                                                     uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMaxCompPressure(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_MinConstSpeed(chip::DeviceProxy * device,
                                                                                               chip::EndpointId ZCLendpointId,
                                                                                               chip::GroupId /* ZCLgroupId */)
@@ -4896,6 +7755,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
     return cluster.ReadAttributeMinConstSpeed(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinConstSpeed(chip::DeviceProxy * device,
+                                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                                   uint16_t minInterval,
+                                                                                                   uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMinConstSpeed(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxConstSpeed(chip::DeviceProxy * device,
                                                                                               chip::EndpointId ZCLendpointId,
                                                                                               chip::GroupId /* ZCLgroupId */)
@@ -4906,6 +7779,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
     return cluster.ReadAttributeMaxConstSpeed(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxConstSpeed(chip::DeviceProxy * device,
+                                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                                   uint16_t minInterval,
+                                                                                                   uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMaxConstSpeed(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_MinConstFlow(chip::DeviceProxy * device,
                                                                                              chip::EndpointId ZCLendpointId,
                                                                                              chip::GroupId /* ZCLgroupId */)
@@ -4916,6 +7803,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
     return cluster.ReadAttributeMinConstFlow(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinConstFlow(chip::DeviceProxy * device,
+                                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                                  uint16_t minInterval,
+                                                                                                  uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMinConstFlow(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxConstFlow(chip::DeviceProxy * device,
                                                                                              chip::EndpointId ZCLendpointId,
                                                                                              chip::GroupId /* ZCLgroupId */)
@@ -4926,6 +7827,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
     return cluster.ReadAttributeMaxConstFlow(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxConstFlow(chip::DeviceProxy * device,
+                                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                                  uint16_t minInterval,
+                                                                                                  uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMaxConstFlow(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_MinConstTemp(chip::DeviceProxy * device,
                                                                                              chip::EndpointId ZCLendpointId,
                                                                                              chip::GroupId /* ZCLgroupId */)
@@ -4936,6 +7851,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
     return cluster.ReadAttributeMinConstTemp(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinConstTemp(chip::DeviceProxy * device,
+                                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                                  uint16_t minInterval,
+                                                                                                  uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMinConstTemp(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxConstTemp(chip::DeviceProxy * device,
                                                                                              chip::EndpointId ZCLendpointId,
                                                                                              chip::GroupId /* ZCLgroupId */)
@@ -4946,6 +7875,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
     return cluster.ReadAttributeMaxConstTemp(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxConstTemp(chip::DeviceProxy * device,
+                                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                                  uint16_t minInterval,
+                                                                                                  uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMaxConstTemp(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_PumpStatus(chip::DeviceProxy * device,
                                                                                            chip::EndpointId ZCLendpointId,
                                                                                            chip::GroupId /* ZCLgroupId */)
@@ -4979,6 +7922,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_EffectiveOperationMode(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeEffectiveOperationMode(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                  maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_EffectiveControlMode(chip::DeviceProxy * device,
                                                                                                      chip::EndpointId ZCLendpointId,
                                                                                                      chip::GroupId /* ZCLgroupId */)
@@ -4990,6 +7945,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_EffectiveControlMode(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeEffectiveControlMode(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_Capacity(chip::DeviceProxy * device,
                                                                                          chip::EndpointId ZCLendpointId,
                                                                                          chip::GroupId /* ZCLgroupId */)
@@ -5023,6 +7990,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
     return cluster.ReadAttributeSpeed(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_Speed(chip::DeviceProxy * device,
+                                                                                           chip::EndpointId ZCLendpointId,
+                                                                                           uint16_t minInterval,
+                                                                                           uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeSpeed(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_LifetimeEnergyConsumed(
     chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, chip::GroupId /* ZCLgroupId */)
 {
@@ -5033,6 +8013,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_LifetimeEnergyConsumed(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeLifetimeEnergyConsumed(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                  maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_OperationMode(chip::DeviceProxy * device,
                                                                                               chip::EndpointId ZCLendpointId,
                                                                                               chip::GroupId /* ZCLgroupId */)
@@ -5043,6 +8035,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
     return cluster.ReadAttributeOperationMode(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_OperationMode(chip::DeviceProxy * device,
+                                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                                   uint16_t minInterval,
+                                                                                                   uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeOperationMode(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_ControlMode(chip::DeviceProxy * device,
                                                                                             chip::EndpointId ZCLendpointId,
                                                                                             chip::GroupId /* ZCLgroupId */)
@@ -5053,6 +8059,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
     return cluster.ReadAttributeControlMode(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_ControlMode(chip::DeviceProxy * device,
+                                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                                 uint16_t minInterval,
+                                                                                                 uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeControlMode(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_AlarmMask(chip::DeviceProxy * device,
                                                                                           chip::EndpointId ZCLendpointId,
                                                                                           chip::GroupId /* ZCLgroupId */)
@@ -5063,6 +8082,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
     return cluster.ReadAttributeAlarmMask(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_AlarmMask(chip::DeviceProxy * device,
+                                                                                               chip::EndpointId ZCLendpointId,
+                                                                                               uint16_t minInterval,
+                                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeAlarmMask(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_FeatureMap(chip::DeviceProxy * device,
                                                                                            chip::EndpointId ZCLendpointId,
                                                                                            chip::GroupId /* ZCLgroupId */)
@@ -5073,6 +8105,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
     return cluster.ReadAttributeFeatureMap(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_FeatureMap(chip::DeviceProxy * device,
+                                                                                                chip::EndpointId ZCLendpointId,
+                                                                                                uint16_t minInterval,
+                                                                                                uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeFeatureMap(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_ClusterRevision(chip::DeviceProxy * device,
                                                                                                 chip::EndpointId ZCLendpointId,
                                                                                                 chip::GroupId /* ZCLgroupId */)
@@ -5083,6 +8128,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_PumpConfigurationAndControl_
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_PumpConfigurationAndControl_ClusterRevision(chip::DeviceProxy * device,
+                                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                                     uint16_t minInterval,
+                                                                                                     uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::PumpConfigurationAndControlCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster PumpConfigurationAndControl
 // Cluster RelativeHumidityMeasurement
 
@@ -5120,6 +8179,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_RelativeHumidityMeasurement_
     return cluster.ReadAttributeMinMeasuredValue(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType
+chip_ime_SubscribeAttribute_RelativeHumidityMeasurement_MinMeasuredValue(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::RelativeHumidityMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMinMeasuredValue(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_RelativeHumidityMeasurement_MaxMeasuredValue(chip::DeviceProxy * device,
                                                                                                  chip::EndpointId ZCLendpointId,
                                                                                                  chip::GroupId /* ZCLgroupId */)
@@ -5130,14 +8202,27 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_RelativeHumidityMeasurement_
     return cluster.ReadAttributeMaxMeasuredValue(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_RelativeHumidityMeasurement_Tolerance(chip::DeviceProxy * device,
-                                                                                          chip::EndpointId ZCLendpointId,
-                                                                                          chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType
+chip_ime_SubscribeAttribute_RelativeHumidityMeasurement_MaxMeasuredValue(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::RelativeHumidityMeasurementCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeTolerance(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster
+        .SubscribeAttributeMaxMeasuredValue(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_RelativeHumidityMeasurement_Tolerance(chip::DeviceProxy * device,
+                                                                                          chip::EndpointId ZCLendpointId,
+                                                                                          chip::GroupId /* ZCLgroupId */)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::RelativeHumidityMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster.ReadAttributeTolerance(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
 chip::ChipError::StorageType chip_ime_SubscribeAttribute_RelativeHumidityMeasurement_Tolerance(chip::DeviceProxy * device,
@@ -5163,6 +8248,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_RelativeHumidityMeasurement_
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_RelativeHumidityMeasurement_ClusterRevision(chip::DeviceProxy * device,
+                                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                                     uint16_t minInterval,
+                                                                                                     uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::RelativeHumidityMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster RelativeHumidityMeasurement
 // Cluster Scenes
 
@@ -5175,6 +8274,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Scenes_SceneCount(chip::Devi
     return cluster.ReadAttributeSceneCount(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Scenes_SceneCount(chip::DeviceProxy * device,
+                                                                           chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                           uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ScenesCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeSceneCount(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Scenes_CurrentScene(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                         chip::GroupId /* ZCLgroupId */)
 {
@@ -5184,6 +8295,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Scenes_CurrentScene(chip::De
     return cluster.ReadAttributeCurrentScene(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Scenes_CurrentScene(chip::DeviceProxy * device,
+                                                                             chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ScenesCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCurrentScene(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Scenes_CurrentGroup(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                         chip::GroupId /* ZCLgroupId */)
 {
@@ -5193,6 +8317,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Scenes_CurrentGroup(chip::De
     return cluster.ReadAttributeCurrentGroup(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Scenes_CurrentGroup(chip::DeviceProxy * device,
+                                                                             chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ScenesCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCurrentGroup(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Scenes_SceneValid(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                       chip::GroupId /* ZCLgroupId */)
 {
@@ -5202,6 +8339,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Scenes_SceneValid(chip::Devi
     return cluster.ReadAttributeSceneValid(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Scenes_SceneValid(chip::DeviceProxy * device,
+                                                                           chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                           uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ScenesCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeSceneValid(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                      maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Scenes_NameSupport(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                        chip::GroupId /* ZCLgroupId */)
 {
@@ -5211,6 +8361,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Scenes_NameSupport(chip::Dev
     return cluster.ReadAttributeNameSupport(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Scenes_NameSupport(chip::DeviceProxy * device,
+                                                                            chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ScenesCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNameSupport(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Scenes_ClusterRevision(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -5221,6 +8383,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Scenes_ClusterRevision(chip:
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Scenes_ClusterRevision(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ScenesCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster Scenes
 // Cluster SoftwareDiagnostics
 
@@ -5247,6 +8422,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_SoftwareDiagnostics_CurrentH
     return cluster.ReadAttributeCurrentHeapFree(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_SoftwareDiagnostics_CurrentHeapFree(chip::DeviceProxy * device,
+                                                                                             chip::EndpointId ZCLendpointId,
+                                                                                             uint16_t minInterval,
+                                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::SoftwareDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCurrentHeapFree(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_SoftwareDiagnostics_CurrentHeapUsed(chip::DeviceProxy * device,
                                                                                         chip::EndpointId ZCLendpointId,
                                                                                         chip::GroupId /* ZCLgroupId */)
@@ -5257,6 +8446,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_SoftwareDiagnostics_CurrentH
     return cluster.ReadAttributeCurrentHeapUsed(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_SoftwareDiagnostics_CurrentHeapUsed(chip::DeviceProxy * device,
+                                                                                             chip::EndpointId ZCLendpointId,
+                                                                                             uint16_t minInterval,
+                                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::SoftwareDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCurrentHeapUsed(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_SoftwareDiagnostics_CurrentHeapHighWatermark(chip::DeviceProxy * device,
                                                                                                  chip::EndpointId ZCLendpointId,
                                                                                                  chip::GroupId /* ZCLgroupId */)
@@ -5268,6 +8471,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_SoftwareDiagnostics_CurrentH
         .AsInteger();
 }
 
+chip::ChipError::StorageType
+chip_ime_SubscribeAttribute_SoftwareDiagnostics_CurrentHeapHighWatermark(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::SoftwareDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCurrentHeapHighWatermark(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(),
+                                                    minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_SoftwareDiagnostics_ClusterRevision(chip::DeviceProxy * device,
                                                                                         chip::EndpointId ZCLendpointId,
                                                                                         chip::GroupId /* ZCLgroupId */)
@@ -5278,6 +8494,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_SoftwareDiagnostics_ClusterR
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_SoftwareDiagnostics_ClusterRevision(chip::DeviceProxy * device,
+                                                                                             chip::EndpointId ZCLendpointId,
+                                                                                             uint16_t minInterval,
+                                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::SoftwareDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster SoftwareDiagnostics
 // Cluster Switch
 
@@ -5291,6 +8521,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Switch_NumberOfPositions(chi
     return cluster.ReadAttributeNumberOfPositions(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Switch_NumberOfPositions(chip::DeviceProxy * device,
+                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                  uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::SwitchCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNumberOfPositions(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Switch_CurrentPosition(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -5323,6 +8566,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Switch_MultiPressMax(chip::D
     return cluster.ReadAttributeMultiPressMax(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Switch_MultiPressMax(chip::DeviceProxy * device,
+                                                                              chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::SwitchCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMultiPressMax(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Switch_FeatureMap(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                       chip::GroupId /* ZCLgroupId */)
 {
@@ -5332,6 +8588,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Switch_FeatureMap(chip::Devi
     return cluster.ReadAttributeFeatureMap(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Switch_FeatureMap(chip::DeviceProxy * device,
+                                                                           chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                           uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::SwitchCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeFeatureMap(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Switch_ClusterRevision(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -5342,6 +8610,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Switch_ClusterRevision(chip:
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Switch_ClusterRevision(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::SwitchCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster Switch
 // Cluster TvChannel
 
@@ -5368,6 +8649,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TvChannel_TvChannelLineup(ch
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TvChannel_TvChannelLineup(chip::DeviceProxy * device,
+                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TvChannelCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTvChannelLineup(gOctetStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TvChannel_CurrentTvChannel(chip::DeviceProxy * device,
                                                                                chip::EndpointId ZCLendpointId,
                                                                                chip::GroupId /* ZCLgroupId */)
@@ -5379,6 +8673,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TvChannel_CurrentTvChannel(c
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TvChannel_CurrentTvChannel(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TvChannelCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCurrentTvChannel(gOctetStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TvChannel_ClusterRevision(chip::DeviceProxy * device,
                                                                               chip::EndpointId ZCLendpointId,
                                                                               chip::GroupId /* ZCLgroupId */)
@@ -5389,6 +8696,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TvChannel_ClusterRevision(ch
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TvChannel_ClusterRevision(chip::DeviceProxy * device,
+                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TvChannelCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster TvChannel
 // Cluster TargetNavigator
 
@@ -5415,6 +8735,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TargetNavigator_ClusterRevis
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TargetNavigator_ClusterRevision(chip::DeviceProxy * device,
+                                                                                         chip::EndpointId ZCLendpointId,
+                                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TargetNavigatorCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster TargetNavigator
 // Cluster TemperatureMeasurement
 
@@ -5452,6 +8785,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TemperatureMeasurement_MinMe
     return cluster.ReadAttributeMinMeasuredValue(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TemperatureMeasurement_MinMeasuredValue(chip::DeviceProxy * device,
+                                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                                 uint16_t minInterval,
+                                                                                                 uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TemperatureMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMinMeasuredValue(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TemperatureMeasurement_MaxMeasuredValue(chip::DeviceProxy * device,
                                                                                             chip::EndpointId ZCLendpointId,
                                                                                             chip::GroupId /* ZCLgroupId */)
@@ -5462,6 +8809,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TemperatureMeasurement_MaxMe
     return cluster.ReadAttributeMaxMeasuredValue(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TemperatureMeasurement_MaxMeasuredValue(chip::DeviceProxy * device,
+                                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                                 uint16_t minInterval,
+                                                                                                 uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TemperatureMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMaxMeasuredValue(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TemperatureMeasurement_Tolerance(chip::DeviceProxy * device,
                                                                                      chip::EndpointId ZCLendpointId,
                                                                                      chip::GroupId /* ZCLgroupId */)
@@ -5495,6 +8856,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TemperatureMeasurement_Clust
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TemperatureMeasurement_ClusterRevision(chip::DeviceProxy * device,
+                                                                                                chip::EndpointId ZCLendpointId,
+                                                                                                uint16_t minInterval,
+                                                                                                uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TemperatureMeasurementCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster TemperatureMeasurement
 // Cluster TestCluster
 
@@ -5507,6 +8882,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Boolean(chip::De
     return cluster.ReadAttributeBoolean(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_Boolean(chip::DeviceProxy * device,
+                                                                             chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeBoolean(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Bitmap8(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                         chip::GroupId /* ZCLgroupId */)
 {
@@ -5516,6 +8903,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Bitmap8(chip::De
     return cluster.ReadAttributeBitmap8(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_Bitmap8(chip::DeviceProxy * device,
+                                                                             chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeBitmap8(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Bitmap16(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                          chip::GroupId /* ZCLgroupId */)
 {
@@ -5525,26 +8924,62 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Bitmap16(chip::D
     return cluster.ReadAttributeBitmap16(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Bitmap32(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
-                                                                         chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_Bitmap16(chip::DeviceProxy * device,
+                                                                              chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                              uint16_t maxInterval)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::TestClusterCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeBitmap32(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster
+        .SubscribeAttributeBitmap16(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Bitmap64(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Bitmap32(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                          chip::GroupId /* ZCLgroupId */)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::TestClusterCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeBitmap64(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster.ReadAttributeBitmap32(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Int8u(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
-                                                                      chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_Bitmap32(chip::DeviceProxy * device,
+                                                                              chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeBitmap32(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Bitmap64(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                         chip::GroupId /* ZCLgroupId */)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster.ReadAttributeBitmap64(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_Bitmap64(chip::DeviceProxy * device,
+                                                                              chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeBitmap64(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Int8u(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                      chip::GroupId /* ZCLgroupId */)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::TestClusterCluster cluster;
@@ -5552,6 +8987,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Int8u(chip::Devi
     return cluster.ReadAttributeInt8u(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_Int8u(chip::DeviceProxy * device,
+                                                                           chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                           uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeInt8u(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Int16u(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                        chip::GroupId /* ZCLgroupId */)
 {
@@ -5561,6 +9008,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Int16u(chip::Dev
     return cluster.ReadAttributeInt16u(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_Int16u(chip::DeviceProxy * device,
+                                                                            chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeInt16u(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Int32u(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                        chip::GroupId /* ZCLgroupId */)
 {
@@ -5570,6 +9029,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Int32u(chip::Dev
     return cluster.ReadAttributeInt32u(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_Int32u(chip::DeviceProxy * device,
+                                                                            chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeInt32u(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Int64u(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                        chip::GroupId /* ZCLgroupId */)
 {
@@ -5579,6 +9050,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Int64u(chip::Dev
     return cluster.ReadAttributeInt64u(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_Int64u(chip::DeviceProxy * device,
+                                                                            chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeInt64u(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Int8s(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                       chip::GroupId /* ZCLgroupId */)
 {
@@ -5588,6 +9071,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Int8s(chip::Devi
     return cluster.ReadAttributeInt8s(gInt8sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_Int8s(chip::DeviceProxy * device,
+                                                                           chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                           uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeInt8s(gInt8sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Int16s(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                        chip::GroupId /* ZCLgroupId */)
 {
@@ -5597,6 +9092,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Int16s(chip::Dev
     return cluster.ReadAttributeInt16s(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_Int16s(chip::DeviceProxy * device,
+                                                                            chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeInt16s(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Int32s(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                        chip::GroupId /* ZCLgroupId */)
 {
@@ -5606,6 +9113,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Int32s(chip::Dev
     return cluster.ReadAttributeInt32s(gInt32sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_Int32s(chip::DeviceProxy * device,
+                                                                            chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeInt32s(gInt32sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Int64s(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                        chip::GroupId /* ZCLgroupId */)
 {
@@ -5615,6 +9134,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Int64s(chip::Dev
     return cluster.ReadAttributeInt64s(gInt64sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_Int64s(chip::DeviceProxy * device,
+                                                                            chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeInt64s(gInt64sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Enum8(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                       chip::GroupId /* ZCLgroupId */)
 {
@@ -5624,6 +9155,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Enum8(chip::Devi
     return cluster.ReadAttributeEnum8(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_Enum8(chip::DeviceProxy * device,
+                                                                           chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                           uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeEnum8(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Enum16(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                        chip::GroupId /* ZCLgroupId */)
 {
@@ -5633,6 +9176,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Enum16(chip::Dev
     return cluster.ReadAttributeEnum16(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_Enum16(chip::DeviceProxy * device,
+                                                                            chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeEnum16(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_OctetString(chip::DeviceProxy * device,
                                                                             chip::EndpointId ZCLendpointId,
                                                                             chip::GroupId /* ZCLgroupId */)
@@ -5643,6 +9198,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_OctetString(chip
     return cluster.ReadAttributeOctetString(gOctetStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_OctetString(chip::DeviceProxy * device,
+                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                 uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeOctetString(gOctetStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                       maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_ListInt8u(chip::DeviceProxy * device,
                                                                           chip::EndpointId ZCLendpointId,
                                                                           chip::GroupId /* ZCLgroupId */)
@@ -5690,6 +9258,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_LongOctetString(
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_LongOctetString(chip::DeviceProxy * device,
+                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                     uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeLongOctetString(gOctetStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_CharString(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -5700,6 +9281,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_CharString(chip:
     return cluster.ReadAttributeCharString(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_CharString(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCharString(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                      maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_LongCharString(chip::DeviceProxy * device,
                                                                                chip::EndpointId ZCLendpointId,
                                                                                chip::GroupId /* ZCLgroupId */)
@@ -5710,6 +9304,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_LongCharString(c
     return cluster.ReadAttributeLongCharString(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_LongCharString(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeLongCharString(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_EpochUs(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                         chip::GroupId /* ZCLgroupId */)
 {
@@ -5719,6 +9326,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_EpochUs(chip::De
     return cluster.ReadAttributeEpochUs(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_EpochUs(chip::DeviceProxy * device,
+                                                                             chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeEpochUs(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_EpochS(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                        chip::GroupId /* ZCLgroupId */)
 {
@@ -5728,6 +9347,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_EpochS(chip::Dev
     return cluster.ReadAttributeEpochS(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_EpochS(chip::DeviceProxy * device,
+                                                                            chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeEpochS(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_VendorId(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                          chip::GroupId /* ZCLgroupId */)
 {
@@ -5737,6 +9368,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_VendorId(chip::D
     return cluster.ReadAttributeVendorId(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_VendorId(chip::DeviceProxy * device,
+                                                                              chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeVendorId(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_ListNullablesAndOptionalsStruct(chip::DeviceProxy * device,
                                                                                                 chip::EndpointId ZCLendpointId,
                                                                                                 chip::GroupId /* ZCLgroupId */)
@@ -5760,6 +9403,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_Unsupported(chip
     return cluster.ReadAttributeUnsupported(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_Unsupported(chip::DeviceProxy * device,
+                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                 uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeUnsupported(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                       maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableBoolean(chip::DeviceProxy * device,
                                                                                 chip::EndpointId ZCLendpointId,
                                                                                 chip::GroupId /* ZCLgroupId */)
@@ -5770,6 +9426,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableBoolean(
     return cluster.ReadAttributeNullableBoolean(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_NullableBoolean(chip::DeviceProxy * device,
+                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                     uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNullableBoolean(gBooleanAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableBitmap8(chip::DeviceProxy * device,
                                                                                 chip::EndpointId ZCLendpointId,
                                                                                 chip::GroupId /* ZCLgroupId */)
@@ -5780,6 +9449,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableBitmap8(
     return cluster.ReadAttributeNullableBitmap8(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_NullableBitmap8(chip::DeviceProxy * device,
+                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                     uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNullableBitmap8(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableBitmap16(chip::DeviceProxy * device,
                                                                                  chip::EndpointId ZCLendpointId,
                                                                                  chip::GroupId /* ZCLgroupId */)
@@ -5790,49 +9472,114 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableBitmap16
     return cluster.ReadAttributeNullableBitmap16(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableBitmap32(chip::DeviceProxy * device,
-                                                                                 chip::EndpointId ZCLendpointId,
-                                                                                 chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_NullableBitmap16(chip::DeviceProxy * device,
+                                                                                      chip::EndpointId ZCLendpointId,
+                                                                                      uint16_t minInterval, uint16_t maxInterval)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::TestClusterCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeNullableBitmap32(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster
+        .SubscribeAttributeNullableBitmap16(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableBitmap64(chip::DeviceProxy * device,
+chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableBitmap32(chip::DeviceProxy * device,
                                                                                  chip::EndpointId ZCLendpointId,
                                                                                  chip::GroupId /* ZCLgroupId */)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::TestClusterCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeNullableBitmap64(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster.ReadAttributeNullableBitmap32(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableInt8u(chip::DeviceProxy * device,
-                                                                              chip::EndpointId ZCLendpointId,
-                                                                              chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_NullableBitmap32(chip::DeviceProxy * device,
+                                                                                      chip::EndpointId ZCLendpointId,
+                                                                                      uint16_t minInterval, uint16_t maxInterval)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::TestClusterCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeNullableInt8u(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster
+        .SubscribeAttributeNullableBitmap32(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableInt16u(chip::DeviceProxy * device,
-                                                                               chip::EndpointId ZCLendpointId,
-                                                                               chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableBitmap64(chip::DeviceProxy * device,
+                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                 chip::GroupId /* ZCLgroupId */)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::TestClusterCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeNullableInt16u(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster.ReadAttributeNullableBitmap64(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableInt32u(chip::DeviceProxy * device,
-                                                                               chip::EndpointId ZCLendpointId,
-                                                                               chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_NullableBitmap64(chip::DeviceProxy * device,
+                                                                                      chip::EndpointId ZCLendpointId,
+                                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNullableBitmap64(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableInt8u(chip::DeviceProxy * device,
+                                                                              chip::EndpointId ZCLendpointId,
+                                                                              chip::GroupId /* ZCLgroupId */)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster.ReadAttributeNullableInt8u(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_NullableInt8u(chip::DeviceProxy * device,
+                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNullableInt8u(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableInt16u(chip::DeviceProxy * device,
+                                                                               chip::EndpointId ZCLendpointId,
+                                                                               chip::GroupId /* ZCLgroupId */)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster.ReadAttributeNullableInt16u(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_NullableInt16u(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNullableInt16u(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableInt32u(chip::DeviceProxy * device,
+                                                                               chip::EndpointId ZCLendpointId,
+                                                                               chip::GroupId /* ZCLgroupId */)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::TestClusterCluster cluster;
@@ -5840,6 +9587,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableInt32u(c
     return cluster.ReadAttributeNullableInt32u(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_NullableInt32u(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNullableInt32u(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableInt64u(chip::DeviceProxy * device,
                                                                                chip::EndpointId ZCLendpointId,
                                                                                chip::GroupId /* ZCLgroupId */)
@@ -5850,6 +9610,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableInt64u(c
     return cluster.ReadAttributeNullableInt64u(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_NullableInt64u(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNullableInt64u(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableInt8s(chip::DeviceProxy * device,
                                                                               chip::EndpointId ZCLendpointId,
                                                                               chip::GroupId /* ZCLgroupId */)
@@ -5860,6 +9633,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableInt8s(ch
     return cluster.ReadAttributeNullableInt8s(gInt8sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_NullableInt8s(chip::DeviceProxy * device,
+                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNullableInt8s(gInt8sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableInt16s(chip::DeviceProxy * device,
                                                                                chip::EndpointId ZCLendpointId,
                                                                                chip::GroupId /* ZCLgroupId */)
@@ -5870,6 +9656,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableInt16s(c
     return cluster.ReadAttributeNullableInt16s(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_NullableInt16s(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNullableInt16s(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableInt32s(chip::DeviceProxy * device,
                                                                                chip::EndpointId ZCLendpointId,
                                                                                chip::GroupId /* ZCLgroupId */)
@@ -5880,6 +9679,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableInt32s(c
     return cluster.ReadAttributeNullableInt32s(gInt32sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_NullableInt32s(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNullableInt32s(gInt32sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableInt64s(chip::DeviceProxy * device,
                                                                                chip::EndpointId ZCLendpointId,
                                                                                chip::GroupId /* ZCLgroupId */)
@@ -5890,6 +9702,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableInt64s(c
     return cluster.ReadAttributeNullableInt64s(gInt64sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_NullableInt64s(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNullableInt64s(gInt64sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableEnum8(chip::DeviceProxy * device,
                                                                               chip::EndpointId ZCLendpointId,
                                                                               chip::GroupId /* ZCLgroupId */)
@@ -5900,6 +9725,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableEnum8(ch
     return cluster.ReadAttributeNullableEnum8(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_NullableEnum8(chip::DeviceProxy * device,
+                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNullableEnum8(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableEnum16(chip::DeviceProxy * device,
                                                                                chip::EndpointId ZCLendpointId,
                                                                                chip::GroupId /* ZCLgroupId */)
@@ -5910,6 +9748,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableEnum16(c
     return cluster.ReadAttributeNullableEnum16(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_NullableEnum16(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNullableEnum16(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableOctetString(chip::DeviceProxy * device,
                                                                                     chip::EndpointId ZCLendpointId,
                                                                                     chip::GroupId /* ZCLgroupId */)
@@ -5921,6 +9772,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableOctetStr
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_NullableOctetString(chip::DeviceProxy * device,
+                                                                                         chip::EndpointId ZCLendpointId,
+                                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNullableOctetString(gOctetStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(),
+                                               minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableCharString(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -5932,6 +9796,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_NullableCharStri
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_NullableCharString(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNullableCharString(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                              maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_ClusterRevision(chip::DeviceProxy * device,
                                                                                 chip::EndpointId ZCLendpointId,
                                                                                 chip::GroupId /* ZCLgroupId */)
@@ -5942,6 +9819,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_TestCluster_ClusterRevision(
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_TestCluster_ClusterRevision(chip::DeviceProxy * device,
+                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                     uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::TestClusterCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster TestCluster
 // Cluster Thermostat
 
@@ -5979,6 +9869,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_AbsMinHeatSetpoin
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Thermostat_AbsMinHeatSetpointLimit(chip::DeviceProxy * device,
+                                                                                            chip::EndpointId ZCLendpointId,
+                                                                                            uint16_t minInterval,
+                                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeAbsMinHeatSetpointLimit(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                   maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_AbsMaxHeatSetpointLimit(chip::DeviceProxy * device,
                                                                                        chip::EndpointId ZCLendpointId,
                                                                                        chip::GroupId /* ZCLgroupId */)
@@ -5990,6 +9894,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_AbsMaxHeatSetpoin
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Thermostat_AbsMaxHeatSetpointLimit(chip::DeviceProxy * device,
+                                                                                            chip::EndpointId ZCLendpointId,
+                                                                                            uint16_t minInterval,
+                                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeAbsMaxHeatSetpointLimit(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                   maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_AbsMinCoolSetpointLimit(chip::DeviceProxy * device,
                                                                                        chip::EndpointId ZCLendpointId,
                                                                                        chip::GroupId /* ZCLgroupId */)
@@ -6001,6 +9919,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_AbsMinCoolSetpoin
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Thermostat_AbsMinCoolSetpointLimit(chip::DeviceProxy * device,
+                                                                                            chip::EndpointId ZCLendpointId,
+                                                                                            uint16_t minInterval,
+                                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeAbsMinCoolSetpointLimit(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                   maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_AbsMaxCoolSetpointLimit(chip::DeviceProxy * device,
                                                                                        chip::EndpointId ZCLendpointId,
                                                                                        chip::GroupId /* ZCLgroupId */)
@@ -6012,6 +9944,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_AbsMaxCoolSetpoin
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Thermostat_AbsMaxCoolSetpointLimit(chip::DeviceProxy * device,
+                                                                                            chip::EndpointId ZCLendpointId,
+                                                                                            uint16_t minInterval,
+                                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeAbsMaxCoolSetpointLimit(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                   maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_OccupiedCoolingSetpoint(chip::DeviceProxy * device,
                                                                                        chip::EndpointId ZCLendpointId,
                                                                                        chip::GroupId /* ZCLgroupId */)
@@ -6023,6 +9969,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_OccupiedCoolingSe
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Thermostat_OccupiedCoolingSetpoint(chip::DeviceProxy * device,
+                                                                                            chip::EndpointId ZCLendpointId,
+                                                                                            uint16_t minInterval,
+                                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeOccupiedCoolingSetpoint(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                   maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_OccupiedHeatingSetpoint(chip::DeviceProxy * device,
                                                                                        chip::EndpointId ZCLendpointId,
                                                                                        chip::GroupId /* ZCLgroupId */)
@@ -6034,6 +9994,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_OccupiedHeatingSe
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Thermostat_OccupiedHeatingSetpoint(chip::DeviceProxy * device,
+                                                                                            chip::EndpointId ZCLendpointId,
+                                                                                            uint16_t minInterval,
+                                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeOccupiedHeatingSetpoint(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                   maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_MinHeatSetpointLimit(chip::DeviceProxy * device,
                                                                                     chip::EndpointId ZCLendpointId,
                                                                                     chip::GroupId /* ZCLgroupId */)
@@ -6045,6 +10019,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_MinHeatSetpointLi
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Thermostat_MinHeatSetpointLimit(chip::DeviceProxy * device,
+                                                                                         chip::EndpointId ZCLendpointId,
+                                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMinHeatSetpointLimit(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_MaxHeatSetpointLimit(chip::DeviceProxy * device,
                                                                                     chip::EndpointId ZCLendpointId,
                                                                                     chip::GroupId /* ZCLgroupId */)
@@ -6056,6 +10043,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_MaxHeatSetpointLi
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Thermostat_MaxHeatSetpointLimit(chip::DeviceProxy * device,
+                                                                                         chip::EndpointId ZCLendpointId,
+                                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMaxHeatSetpointLimit(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_MinCoolSetpointLimit(chip::DeviceProxy * device,
                                                                                     chip::EndpointId ZCLendpointId,
                                                                                     chip::GroupId /* ZCLgroupId */)
@@ -6067,6 +10067,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_MinCoolSetpointLi
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Thermostat_MinCoolSetpointLimit(chip::DeviceProxy * device,
+                                                                                         chip::EndpointId ZCLendpointId,
+                                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMinCoolSetpointLimit(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_MaxCoolSetpointLimit(chip::DeviceProxy * device,
                                                                                     chip::EndpointId ZCLendpointId,
                                                                                     chip::GroupId /* ZCLgroupId */)
@@ -6078,6 +10091,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_MaxCoolSetpointLi
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Thermostat_MaxCoolSetpointLimit(chip::DeviceProxy * device,
+                                                                                         chip::EndpointId ZCLendpointId,
+                                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMaxCoolSetpointLimit(gInt16sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_MinSetpointDeadBand(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -6088,7 +10114,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_MinSetpointDeadBa
     return cluster.ReadAttributeMinSetpointDeadBand(gInt8sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_ControlSequenceOfOperation(chip::DeviceProxy * device,
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Thermostat_MinSetpointDeadBand(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMinSetpointDeadBand(gInt8sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                               maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_ControlSequenceOfOperation(chip::DeviceProxy * device,
                                                                                           chip::EndpointId ZCLendpointId,
                                                                                           chip::GroupId /* ZCLgroupId */)
 {
@@ -6099,6 +10138,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_ControlSequenceOf
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Thermostat_ControlSequenceOfOperation(chip::DeviceProxy * device,
+                                                                                               chip::EndpointId ZCLendpointId,
+                                                                                               uint16_t minInterval,
+                                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeControlSequenceOfOperation(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(),
+                                                      minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_SystemMode(chip::DeviceProxy * device,
                                                                           chip::EndpointId ZCLendpointId,
                                                                           chip::GroupId /* ZCLgroupId */)
@@ -6109,6 +10162,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_SystemMode(chip::
     return cluster.ReadAttributeSystemMode(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Thermostat_SystemMode(chip::DeviceProxy * device,
+                                                                               chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeSystemMode(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_StartOfWeek(chip::DeviceProxy * device,
                                                                            chip::EndpointId ZCLendpointId,
                                                                            chip::GroupId /* ZCLgroupId */)
@@ -6119,6 +10184,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_StartOfWeek(chip:
     return cluster.ReadAttributeStartOfWeek(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Thermostat_StartOfWeek(chip::DeviceProxy * device,
+                                                                                chip::EndpointId ZCLendpointId,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeStartOfWeek(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_NumberOfWeeklyTransitions(chip::DeviceProxy * device,
                                                                                          chip::EndpointId ZCLendpointId,
                                                                                          chip::GroupId /* ZCLgroupId */)
@@ -6130,6 +10207,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_NumberOfWeeklyTra
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Thermostat_NumberOfWeeklyTransitions(chip::DeviceProxy * device,
+                                                                                              chip::EndpointId ZCLendpointId,
+                                                                                              uint16_t minInterval,
+                                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNumberOfWeeklyTransitions(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(),
+                                                     minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_NumberOfDailyTransitions(chip::DeviceProxy * device,
                                                                                         chip::EndpointId ZCLendpointId,
                                                                                         chip::GroupId /* ZCLgroupId */)
@@ -6141,6 +10232,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_NumberOfDailyTran
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Thermostat_NumberOfDailyTransitions(chip::DeviceProxy * device,
+                                                                                             chip::EndpointId ZCLendpointId,
+                                                                                             uint16_t minInterval,
+                                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNumberOfDailyTransitions(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                    maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_FeatureMap(chip::DeviceProxy * device,
                                                                           chip::EndpointId ZCLendpointId,
                                                                           chip::GroupId /* ZCLgroupId */)
@@ -6151,6 +10256,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_FeatureMap(chip::
     return cluster.ReadAttributeFeatureMap(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Thermostat_FeatureMap(chip::DeviceProxy * device,
+                                                                               chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeFeatureMap(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_ClusterRevision(chip::DeviceProxy * device,
                                                                                chip::EndpointId ZCLendpointId,
                                                                                chip::GroupId /* ZCLgroupId */)
@@ -6161,6 +10278,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_Thermostat_ClusterRevision(c
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_Thermostat_ClusterRevision(chip::DeviceProxy * device,
+                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster Thermostat
 // Cluster ThermostatUserInterfaceConfiguration
 
@@ -6174,6 +10304,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThermostatUserInterfaceConfi
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThermostatUserInterfaceConfiguration_TemperatureDisplayMode(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTemperatureDisplayMode(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                  maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThermostatUserInterfaceConfiguration_KeypadLockout(
     chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, chip::GroupId /* ZCLgroupId */)
 {
@@ -6183,6 +10325,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThermostatUserInterfaceConfi
     return cluster.ReadAttributeKeypadLockout(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThermostatUserInterfaceConfiguration_KeypadLockout(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeKeypadLockout(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThermostatUserInterfaceConfiguration_ScheduleProgrammingVisibility(
     chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, chip::GroupId /* ZCLgroupId */)
 {
@@ -6193,6 +10347,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThermostatUserInterfaceConfi
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThermostatUserInterfaceConfiguration_ScheduleProgrammingVisibility(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeScheduleProgrammingVisibility(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(),
+                                                         minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThermostatUserInterfaceConfiguration_ClusterRevision(
     chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, chip::GroupId /* ZCLgroupId */)
 {
@@ -6202,6 +10368,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThermostatUserInterfaceConfi
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThermostatUserInterfaceConfiguration_ClusterRevision(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster ThermostatUserInterfaceConfiguration
 // Cluster ThreadNetworkDiagnostics
 
@@ -6215,6 +10393,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Cha
     return cluster.ReadAttributeChannel(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_Channel(chip::DeviceProxy * device,
+                                                                                          chip::EndpointId ZCLendpointId,
+                                                                                          uint16_t minInterval,
+                                                                                          uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeChannel(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RoutingRole(chip::DeviceProxy * device,
                                                                                          chip::EndpointId ZCLendpointId,
                                                                                          chip::GroupId /* ZCLgroupId */)
@@ -6225,6 +10416,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Rou
     return cluster.ReadAttributeRoutingRole(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RoutingRole(chip::DeviceProxy * device,
+                                                                                              chip::EndpointId ZCLendpointId,
+                                                                                              uint16_t minInterval,
+                                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRoutingRole(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_NetworkName(chip::DeviceProxy * device,
                                                                                          chip::EndpointId ZCLendpointId,
                                                                                          chip::GroupId /* ZCLgroupId */)
@@ -6235,6 +10439,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Net
     return cluster.ReadAttributeNetworkName(gOctetStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_NetworkName(chip::DeviceProxy * device,
+                                                                                              chip::EndpointId ZCLendpointId,
+                                                                                              uint16_t minInterval,
+                                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeNetworkName(gOctetStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                       maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_PanId(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -6245,6 +10463,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Pan
     return cluster.ReadAttributePanId(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_PanId(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePanId(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ExtendedPanId(chip::DeviceProxy * device,
                                                                                            chip::EndpointId ZCLendpointId,
                                                                                            chip::GroupId /* ZCLgroupId */)
@@ -6255,6 +10485,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Ext
     return cluster.ReadAttributeExtendedPanId(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ExtendedPanId(chip::DeviceProxy * device,
+                                                                                                chip::EndpointId ZCLendpointId,
+                                                                                                uint16_t minInterval,
+                                                                                                uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeExtendedPanId(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_MeshLocalPrefix(chip::DeviceProxy * device,
                                                                                              chip::EndpointId ZCLendpointId,
                                                                                              chip::GroupId /* ZCLgroupId */)
@@ -6266,6 +10510,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Mes
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_MeshLocalPrefix(chip::DeviceProxy * device,
+                                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                                  uint16_t minInterval,
+                                                                                                  uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMeshLocalPrefix(gOctetStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_OverrunCount(chip::DeviceProxy * device,
                                                                                           chip::EndpointId ZCLendpointId,
                                                                                           chip::GroupId /* ZCLgroupId */)
@@ -6276,6 +10534,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Ove
     return cluster.ReadAttributeOverrunCount(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_OverrunCount(chip::DeviceProxy * device,
+                                                                                               chip::EndpointId ZCLendpointId,
+                                                                                               uint16_t minInterval,
+                                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeOverrunCount(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_NeighborTableList(chip::DeviceProxy * device,
                                                                                                chip::EndpointId ZCLendpointId,
                                                                                                chip::GroupId /* ZCLgroupId */)
@@ -6312,6 +10584,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Par
     return cluster.ReadAttributePartitionId(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_PartitionId(chip::DeviceProxy * device,
+                                                                                              chip::EndpointId ZCLendpointId,
+                                                                                              uint16_t minInterval,
+                                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePartitionId(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                       maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Weighting(chip::DeviceProxy * device,
                                                                                        chip::EndpointId ZCLendpointId,
                                                                                        chip::GroupId /* ZCLgroupId */)
@@ -6322,6 +10608,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Wei
     return cluster.ReadAttributeWeighting(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_Weighting(chip::DeviceProxy * device,
+                                                                                            chip::EndpointId ZCLendpointId,
+                                                                                            uint16_t minInterval,
+                                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeWeighting(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_DataVersion(chip::DeviceProxy * device,
                                                                                          chip::EndpointId ZCLendpointId,
                                                                                          chip::GroupId /* ZCLgroupId */)
@@ -6332,6 +10631,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Dat
     return cluster.ReadAttributeDataVersion(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_DataVersion(chip::DeviceProxy * device,
+                                                                                              chip::EndpointId ZCLendpointId,
+                                                                                              uint16_t minInterval,
+                                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeDataVersion(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_StableDataVersion(chip::DeviceProxy * device,
                                                                                                chip::EndpointId ZCLendpointId,
                                                                                                chip::GroupId /* ZCLgroupId */)
@@ -6342,6 +10654,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Sta
     return cluster.ReadAttributeStableDataVersion(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_StableDataVersion(chip::DeviceProxy * device,
+                                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                                    uint16_t minInterval,
+                                                                                                    uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeStableDataVersion(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_LeaderRouterId(chip::DeviceProxy * device,
                                                                                             chip::EndpointId ZCLendpointId,
                                                                                             chip::GroupId /* ZCLgroupId */)
@@ -6352,6 +10678,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Lea
     return cluster.ReadAttributeLeaderRouterId(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_LeaderRouterId(chip::DeviceProxy * device,
+                                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                                 uint16_t minInterval,
+                                                                                                 uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeLeaderRouterId(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_DetachedRoleCount(chip::DeviceProxy * device,
                                                                                                chip::EndpointId ZCLendpointId,
                                                                                                chip::GroupId /* ZCLgroupId */)
@@ -6362,16 +10702,44 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Det
     return cluster.ReadAttributeDetachedRoleCount(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ChildRoleCount(chip::DeviceProxy * device,
-                                                                                            chip::EndpointId ZCLendpointId,
-                                                                                            chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_DetachedRoleCount(chip::DeviceProxy * device,
+                                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                                    uint16_t minInterval,
+                                                                                                    uint16_t maxInterval)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeChildRoleCount(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
-}
-
+    return cluster
+        .SubscribeAttributeDetachedRoleCount(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ChildRoleCount(chip::DeviceProxy * device,
+                                                                                            chip::EndpointId ZCLendpointId,
+                                                                                            chip::GroupId /* ZCLgroupId */)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster.ReadAttributeChildRoleCount(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ChildRoleCount(chip::DeviceProxy * device,
+                                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                                 uint16_t minInterval,
+                                                                                                 uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeChildRoleCount(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RouterRoleCount(chip::DeviceProxy * device,
                                                                                              chip::EndpointId ZCLendpointId,
                                                                                              chip::GroupId /* ZCLgroupId */)
@@ -6382,6 +10750,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Rou
     return cluster.ReadAttributeRouterRoleCount(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RouterRoleCount(chip::DeviceProxy * device,
+                                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                                  uint16_t minInterval,
+                                                                                                  uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRouterRoleCount(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_LeaderRoleCount(chip::DeviceProxy * device,
                                                                                              chip::EndpointId ZCLendpointId,
                                                                                              chip::GroupId /* ZCLgroupId */)
@@ -6392,6 +10774,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Lea
     return cluster.ReadAttributeLeaderRoleCount(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_LeaderRoleCount(chip::DeviceProxy * device,
+                                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                                  uint16_t minInterval,
+                                                                                                  uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeLeaderRoleCount(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_AttachAttemptCount(chip::DeviceProxy * device,
                                                                                                 chip::EndpointId ZCLendpointId,
                                                                                                 chip::GroupId /* ZCLgroupId */)
@@ -6402,6 +10798,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Att
     return cluster.ReadAttributeAttachAttemptCount(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_AttachAttemptCount(chip::DeviceProxy * device,
+                                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                                     uint16_t minInterval,
+                                                                                                     uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeAttachAttemptCount(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                              maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_PartitionIdChangeCount(chip::DeviceProxy * device,
                                                                                                     chip::EndpointId ZCLendpointId,
                                                                                                     chip::GroupId /* ZCLgroupId */)
@@ -6413,6 +10823,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Par
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_PartitionIdChangeCount(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePartitionIdChangeCount(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                  maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_BetterPartitionAttachAttemptCount(
     chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, chip::GroupId /* ZCLgroupId */)
 {
@@ -6424,6 +10846,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Bet
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_BetterPartitionAttachAttemptCount(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeBetterPartitionAttachAttemptCount(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(),
+                                                             minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ParentChangeCount(chip::DeviceProxy * device,
                                                                                                chip::EndpointId ZCLendpointId,
                                                                                                chip::GroupId /* ZCLgroupId */)
@@ -6434,6 +10868,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Par
     return cluster.ReadAttributeParentChangeCount(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ParentChangeCount(chip::DeviceProxy * device,
+                                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                                    uint16_t minInterval,
+                                                                                                    uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeParentChangeCount(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxTotalCount(chip::DeviceProxy * device,
                                                                                           chip::EndpointId ZCLendpointId,
                                                                                           chip::GroupId /* ZCLgroupId */)
@@ -6444,6 +10892,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxT
     return cluster.ReadAttributeTxTotalCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxTotalCount(chip::DeviceProxy * device,
+                                                                                               chip::EndpointId ZCLendpointId,
+                                                                                               uint16_t minInterval,
+                                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTxTotalCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxUnicastCount(chip::DeviceProxy * device,
                                                                                             chip::EndpointId ZCLendpointId,
                                                                                             chip::GroupId /* ZCLgroupId */)
@@ -6454,6 +10916,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxU
     return cluster.ReadAttributeTxUnicastCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxUnicastCount(chip::DeviceProxy * device,
+                                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                                 uint16_t minInterval,
+                                                                                                 uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTxUnicastCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxBroadcastCount(chip::DeviceProxy * device,
                                                                                               chip::EndpointId ZCLendpointId,
                                                                                               chip::GroupId /* ZCLgroupId */)
@@ -6464,6 +10940,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxB
     return cluster.ReadAttributeTxBroadcastCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxBroadcastCount(chip::DeviceProxy * device,
+                                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                                   uint16_t minInterval,
+                                                                                                   uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTxBroadcastCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxAckRequestedCount(chip::DeviceProxy * device,
                                                                                                  chip::EndpointId ZCLendpointId,
                                                                                                  chip::GroupId /* ZCLgroupId */)
@@ -6475,6 +10965,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxA
         .AsInteger();
 }
 
+chip::ChipError::StorageType
+chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxAckRequestedCount(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTxAckRequestedCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                               maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxAckedCount(chip::DeviceProxy * device,
                                                                                           chip::EndpointId ZCLendpointId,
                                                                                           chip::GroupId /* ZCLgroupId */)
@@ -6485,6 +10988,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxA
     return cluster.ReadAttributeTxAckedCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxAckedCount(chip::DeviceProxy * device,
+                                                                                               chip::EndpointId ZCLendpointId,
+                                                                                               uint16_t minInterval,
+                                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTxAckedCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxNoAckRequestedCount(chip::DeviceProxy * device,
                                                                                                    chip::EndpointId ZCLendpointId,
                                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -6496,6 +11013,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxN
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxNoAckRequestedCount(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTxNoAckRequestedCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                 maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxDataCount(chip::DeviceProxy * device,
                                                                                          chip::EndpointId ZCLendpointId,
                                                                                          chip::GroupId /* ZCLgroupId */)
@@ -6506,6 +11035,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxD
     return cluster.ReadAttributeTxDataCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxDataCount(chip::DeviceProxy * device,
+                                                                                              chip::EndpointId ZCLendpointId,
+                                                                                              uint16_t minInterval,
+                                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTxDataCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                       maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxDataPollCount(chip::DeviceProxy * device,
                                                                                              chip::EndpointId ZCLendpointId,
                                                                                              chip::GroupId /* ZCLgroupId */)
@@ -6516,6 +11059,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxD
     return cluster.ReadAttributeTxDataPollCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxDataPollCount(chip::DeviceProxy * device,
+                                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                                  uint16_t minInterval,
+                                                                                                  uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTxDataPollCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxBeaconCount(chip::DeviceProxy * device,
                                                                                            chip::EndpointId ZCLendpointId,
                                                                                            chip::GroupId /* ZCLgroupId */)
@@ -6526,6 +11083,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxB
     return cluster.ReadAttributeTxBeaconCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxBeaconCount(chip::DeviceProxy * device,
+                                                                                                chip::EndpointId ZCLendpointId,
+                                                                                                uint16_t minInterval,
+                                                                                                uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTxBeaconCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxBeaconRequestCount(chip::DeviceProxy * device,
                                                                                                   chip::EndpointId ZCLendpointId,
                                                                                                   chip::GroupId /* ZCLgroupId */)
@@ -6537,6 +11108,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxB
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxBeaconRequestCount(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTxBeaconRequestCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxOtherCount(chip::DeviceProxy * device,
                                                                                           chip::EndpointId ZCLendpointId,
                                                                                           chip::GroupId /* ZCLgroupId */)
@@ -6547,6 +11130,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxO
     return cluster.ReadAttributeTxOtherCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxOtherCount(chip::DeviceProxy * device,
+                                                                                               chip::EndpointId ZCLendpointId,
+                                                                                               uint16_t minInterval,
+                                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTxOtherCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxRetryCount(chip::DeviceProxy * device,
                                                                                           chip::EndpointId ZCLendpointId,
                                                                                           chip::GroupId /* ZCLgroupId */)
@@ -6557,6 +11154,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxR
     return cluster.ReadAttributeTxRetryCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxRetryCount(chip::DeviceProxy * device,
+                                                                                               chip::EndpointId ZCLendpointId,
+                                                                                               uint16_t minInterval,
+                                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTxRetryCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxDirectMaxRetryExpiryCount(
     chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, chip::GroupId /* ZCLgroupId */)
 {
@@ -6567,6 +11178,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxD
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxDirectMaxRetryExpiryCount(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTxDirectMaxRetryExpiryCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(),
+                                                       minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxIndirectMaxRetryExpiryCount(
     chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, chip::GroupId /* ZCLgroupId */)
 {
@@ -6577,6 +11200,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxI
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxIndirectMaxRetryExpiryCount(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTxIndirectMaxRetryExpiryCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(),
+                                                         minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxErrCcaCount(chip::DeviceProxy * device,
                                                                                            chip::EndpointId ZCLendpointId,
                                                                                            chip::GroupId /* ZCLgroupId */)
@@ -6587,6 +11222,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxE
     return cluster.ReadAttributeTxErrCcaCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxErrCcaCount(chip::DeviceProxy * device,
+                                                                                                chip::EndpointId ZCLendpointId,
+                                                                                                uint16_t minInterval,
+                                                                                                uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTxErrCcaCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxErrAbortCount(chip::DeviceProxy * device,
                                                                                              chip::EndpointId ZCLendpointId,
                                                                                              chip::GroupId /* ZCLgroupId */)
@@ -6597,6 +11246,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxE
     return cluster.ReadAttributeTxErrAbortCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxErrAbortCount(chip::DeviceProxy * device,
+                                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                                  uint16_t minInterval,
+                                                                                                  uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTxErrAbortCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxErrBusyChannelCount(chip::DeviceProxy * device,
                                                                                                    chip::EndpointId ZCLendpointId,
                                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -6604,28 +11267,68 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxE
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeTxErrBusyChannelCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel())
+    return cluster.ReadAttributeTxErrBusyChannelCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel())
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxErrBusyChannelCount(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeTxErrBusyChannelCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                 maxInterval)
+        .AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxTotalCount(chip::DeviceProxy * device,
+                                                                                          chip::EndpointId ZCLendpointId,
+                                                                                          chip::GroupId /* ZCLgroupId */)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster.ReadAttributeRxTotalCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxTotalCount(chip::DeviceProxy * device,
+                                                                                               chip::EndpointId ZCLendpointId,
+                                                                                               uint16_t minInterval,
+                                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRxTotalCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
         .AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxTotalCount(chip::DeviceProxy * device,
-                                                                                          chip::EndpointId ZCLendpointId,
-                                                                                          chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxUnicastCount(chip::DeviceProxy * device,
+                                                                                            chip::EndpointId ZCLendpointId,
+                                                                                            chip::GroupId /* ZCLgroupId */)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeRxTotalCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster.ReadAttributeRxUnicastCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
-chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxUnicastCount(chip::DeviceProxy * device,
-                                                                                            chip::EndpointId ZCLendpointId,
-                                                                                            chip::GroupId /* ZCLgroupId */)
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxUnicastCount(chip::DeviceProxy * device,
+                                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                                 uint16_t minInterval,
+                                                                                                 uint16_t maxInterval)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeRxUnicastCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster
+        .SubscribeAttributeRxUnicastCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
 }
 
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxBroadcastCount(chip::DeviceProxy * device,
@@ -6638,6 +11341,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxB
     return cluster.ReadAttributeRxBroadcastCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxBroadcastCount(chip::DeviceProxy * device,
+                                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                                   uint16_t minInterval,
+                                                                                                   uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRxBroadcastCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxDataCount(chip::DeviceProxy * device,
                                                                                          chip::EndpointId ZCLendpointId,
                                                                                          chip::GroupId /* ZCLgroupId */)
@@ -6648,6 +11365,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxD
     return cluster.ReadAttributeRxDataCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxDataCount(chip::DeviceProxy * device,
+                                                                                              chip::EndpointId ZCLendpointId,
+                                                                                              uint16_t minInterval,
+                                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRxDataCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                       maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxDataPollCount(chip::DeviceProxy * device,
                                                                                              chip::EndpointId ZCLendpointId,
                                                                                              chip::GroupId /* ZCLgroupId */)
@@ -6658,6 +11389,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxD
     return cluster.ReadAttributeRxDataPollCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxDataPollCount(chip::DeviceProxy * device,
+                                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                                  uint16_t minInterval,
+                                                                                                  uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRxDataPollCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxBeaconCount(chip::DeviceProxy * device,
                                                                                            chip::EndpointId ZCLendpointId,
                                                                                            chip::GroupId /* ZCLgroupId */)
@@ -6668,6 +11413,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxB
     return cluster.ReadAttributeRxBeaconCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxBeaconCount(chip::DeviceProxy * device,
+                                                                                                chip::EndpointId ZCLendpointId,
+                                                                                                uint16_t minInterval,
+                                                                                                uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRxBeaconCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxBeaconRequestCount(chip::DeviceProxy * device,
                                                                                                   chip::EndpointId ZCLendpointId,
                                                                                                   chip::GroupId /* ZCLgroupId */)
@@ -6679,6 +11438,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxB
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxBeaconRequestCount(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRxBeaconRequestCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxOtherCount(chip::DeviceProxy * device,
                                                                                           chip::EndpointId ZCLendpointId,
                                                                                           chip::GroupId /* ZCLgroupId */)
@@ -6689,6 +11460,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxO
     return cluster.ReadAttributeRxOtherCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxOtherCount(chip::DeviceProxy * device,
+                                                                                               chip::EndpointId ZCLendpointId,
+                                                                                               uint16_t minInterval,
+                                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRxOtherCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxAddressFilteredCount(chip::DeviceProxy * device,
                                                                                                     chip::EndpointId ZCLendpointId,
                                                                                                     chip::GroupId /* ZCLgroupId */)
@@ -6700,6 +11485,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxA
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxAddressFilteredCount(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRxAddressFilteredCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                  maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxDestAddrFilteredCount(chip::DeviceProxy * device,
                                                                                                      chip::EndpointId ZCLendpointId,
                                                                                                      chip::GroupId /* ZCLgroupId */)
@@ -6711,6 +11508,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxD
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxDestAddrFilteredCount(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRxDestAddrFilteredCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                   maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxDuplicatedCount(chip::DeviceProxy * device,
                                                                                                chip::EndpointId ZCLendpointId,
                                                                                                chip::GroupId /* ZCLgroupId */)
@@ -6721,6 +11530,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxD
     return cluster.ReadAttributeRxDuplicatedCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxDuplicatedCount(chip::DeviceProxy * device,
+                                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                                    uint16_t minInterval,
+                                                                                                    uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRxDuplicatedCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrNoFrameCount(chip::DeviceProxy * device,
                                                                                                chip::EndpointId ZCLendpointId,
                                                                                                chip::GroupId /* ZCLgroupId */)
@@ -6731,6 +11554,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxE
     return cluster.ReadAttributeRxErrNoFrameCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrNoFrameCount(chip::DeviceProxy * device,
+                                                                                                    chip::EndpointId ZCLendpointId,
+                                                                                                    uint16_t minInterval,
+                                                                                                    uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRxErrNoFrameCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                             maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrUnknownNeighborCount(
     chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, chip::GroupId /* ZCLgroupId */)
 {
@@ -6741,6 +11578,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxE
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrUnknownNeighborCount(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRxErrUnknownNeighborCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(),
+                                                     minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType
 chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrInvalidSrcAddrCount(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                          chip::GroupId /* ZCLgroupId */)
@@ -6752,6 +11601,18 @@ chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrInvalidSrcAddrCount(chip::D
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrInvalidSrcAddrCount(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRxErrInvalidSrcAddrCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(),
+                                                    minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrSecCount(chip::DeviceProxy * device,
                                                                                            chip::EndpointId ZCLendpointId,
                                                                                            chip::GroupId /* ZCLgroupId */)
@@ -6762,6 +11623,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxE
     return cluster.ReadAttributeRxErrSecCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrSecCount(chip::DeviceProxy * device,
+                                                                                                chip::EndpointId ZCLendpointId,
+                                                                                                uint16_t minInterval,
+                                                                                                uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRxErrSecCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrFcsCount(chip::DeviceProxy * device,
                                                                                            chip::EndpointId ZCLendpointId,
                                                                                            chip::GroupId /* ZCLgroupId */)
@@ -6772,6 +11647,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxE
     return cluster.ReadAttributeRxErrFcsCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrFcsCount(chip::DeviceProxy * device,
+                                                                                                chip::EndpointId ZCLendpointId,
+                                                                                                uint16_t minInterval,
+                                                                                                uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRxErrFcsCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrOtherCount(chip::DeviceProxy * device,
                                                                                              chip::EndpointId ZCLendpointId,
                                                                                              chip::GroupId /* ZCLgroupId */)
@@ -6782,6 +11671,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxE
     return cluster.ReadAttributeRxErrOtherCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrOtherCount(chip::DeviceProxy * device,
+                                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                                  uint16_t minInterval,
+                                                                                                  uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRxErrOtherCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ActiveTimestamp(chip::DeviceProxy * device,
                                                                                              chip::EndpointId ZCLendpointId,
                                                                                              chip::GroupId /* ZCLgroupId */)
@@ -6792,6 +11695,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Act
     return cluster.ReadAttributeActiveTimestamp(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ActiveTimestamp(chip::DeviceProxy * device,
+                                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                                  uint16_t minInterval,
+                                                                                                  uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeActiveTimestamp(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_PendingTimestamp(chip::DeviceProxy * device,
                                                                                               chip::EndpointId ZCLendpointId,
                                                                                               chip::GroupId /* ZCLgroupId */)
@@ -6802,6 +11719,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Pen
     return cluster.ReadAttributePendingTimestamp(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_PendingTimestamp(chip::DeviceProxy * device,
+                                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                                   uint16_t minInterval,
+                                                                                                   uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePendingTimestamp(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                            maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Delay(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -6812,6 +11743,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Del
     return cluster.ReadAttributeDelay(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_Delay(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeDelay(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_SecurityPolicy(chip::DeviceProxy * device,
                                                                                             chip::EndpointId ZCLendpointId,
                                                                                             chip::GroupId /* ZCLgroupId */)
@@ -6835,6 +11778,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Cha
     return cluster.ReadAttributeChannelMask(gOctetStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ChannelMask(chip::DeviceProxy * device,
+                                                                                              chip::EndpointId ZCLendpointId,
+                                                                                              uint16_t minInterval,
+                                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeChannelMask(gOctetStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                       maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_OperationalDatasetComponents(
     chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, chip::GroupId /* ZCLgroupId */)
 {
@@ -6870,6 +11827,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Clu
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ClusterRevision(chip::DeviceProxy * device,
+                                                                                                  chip::EndpointId ZCLendpointId,
+                                                                                                  uint16_t minInterval,
+                                                                                                  uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster ThreadNetworkDiagnostics
 // Cluster WakeOnLan
 
@@ -6884,6 +11855,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WakeOnLan_WakeOnLanMacAddres
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WakeOnLan_WakeOnLanMacAddress(chip::DeviceProxy * device,
+                                                                                       chip::EndpointId ZCLendpointId,
+                                                                                       uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WakeOnLanCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeWakeOnLanMacAddress(gCharStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                               maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WakeOnLan_ClusterRevision(chip::DeviceProxy * device,
                                                                               chip::EndpointId ZCLendpointId,
                                                                               chip::GroupId /* ZCLgroupId */)
@@ -6894,6 +11878,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WakeOnLan_ClusterRevision(ch
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WakeOnLan_ClusterRevision(chip::DeviceProxy * device,
+                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WakeOnLanCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster WakeOnLan
 // Cluster WiFiNetworkDiagnostics
 
@@ -6904,7 +11901,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Bssid
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
     chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
     cluster.Associate(device, ZCLendpointId);
-    return cluster.ReadAttributeBssid(gOctetStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+    return cluster.ReadAttributeBssid(gOctetStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
+}
+
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_Bssid(chip::DeviceProxy * device,
+                                                                                      chip::EndpointId ZCLendpointId,
+                                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeBssid(gOctetStringAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
 }
 
 chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_SecurityType(chip::DeviceProxy * device,
@@ -6917,6 +11926,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Secur
     return cluster.ReadAttributeSecurityType(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_SecurityType(chip::DeviceProxy * device,
+                                                                                             chip::EndpointId ZCLendpointId,
+                                                                                             uint16_t minInterval,
+                                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeSecurityType(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_WiFiVersion(chip::DeviceProxy * device,
                                                                                        chip::EndpointId ZCLendpointId,
                                                                                        chip::GroupId /* ZCLgroupId */)
@@ -6927,6 +11950,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_WiFiV
     return cluster.ReadAttributeWiFiVersion(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_WiFiVersion(chip::DeviceProxy * device,
+                                                                                            chip::EndpointId ZCLendpointId,
+                                                                                            uint16_t minInterval,
+                                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeWiFiVersion(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_ChannelNumber(chip::DeviceProxy * device,
                                                                                          chip::EndpointId ZCLendpointId,
                                                                                          chip::GroupId /* ZCLgroupId */)
@@ -6937,6 +11973,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Chann
     return cluster.ReadAttributeChannelNumber(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_ChannelNumber(chip::DeviceProxy * device,
+                                                                                              chip::EndpointId ZCLendpointId,
+                                                                                              uint16_t minInterval,
+                                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeChannelNumber(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Rssi(chip::DeviceProxy * device,
                                                                                 chip::EndpointId ZCLendpointId,
                                                                                 chip::GroupId /* ZCLgroupId */)
@@ -6947,6 +11997,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Rssi(
     return cluster.ReadAttributeRssi(gInt8sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_Rssi(chip::DeviceProxy * device,
+                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                     uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeRssi(gInt8sAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_BeaconLostCount(chip::DeviceProxy * device,
                                                                                            chip::EndpointId ZCLendpointId,
                                                                                            chip::GroupId /* ZCLgroupId */)
@@ -6957,6 +12019,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Beaco
     return cluster.ReadAttributeBeaconLostCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_BeaconLostCount(chip::DeviceProxy * device,
+                                                                                                chip::EndpointId ZCLendpointId,
+                                                                                                uint16_t minInterval,
+                                                                                                uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeBeaconLostCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_BeaconRxCount(chip::DeviceProxy * device,
                                                                                          chip::EndpointId ZCLendpointId,
                                                                                          chip::GroupId /* ZCLgroupId */)
@@ -6967,6 +12043,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Beaco
     return cluster.ReadAttributeBeaconRxCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_BeaconRxCount(chip::DeviceProxy * device,
+                                                                                              chip::EndpointId ZCLendpointId,
+                                                                                              uint16_t minInterval,
+                                                                                              uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeBeaconRxCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                         maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_PacketMulticastRxCount(chip::DeviceProxy * device,
                                                                                                   chip::EndpointId ZCLendpointId,
                                                                                                   chip::GroupId /* ZCLgroupId */)
@@ -6978,6 +12068,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Packe
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_PacketMulticastRxCount(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePacketMulticastRxCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                  maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_PacketMulticastTxCount(chip::DeviceProxy * device,
                                                                                                   chip::EndpointId ZCLendpointId,
                                                                                                   chip::GroupId /* ZCLgroupId */)
@@ -6989,6 +12091,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Packe
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_PacketMulticastTxCount(
+    chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePacketMulticastTxCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                  maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_PacketUnicastRxCount(chip::DeviceProxy * device,
                                                                                                 chip::EndpointId ZCLendpointId,
                                                                                                 chip::GroupId /* ZCLgroupId */)
@@ -7000,6 +12114,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Packe
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_PacketUnicastRxCount(chip::DeviceProxy * device,
+                                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                                     uint16_t minInterval,
+                                                                                                     uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePacketUnicastRxCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_PacketUnicastTxCount(chip::DeviceProxy * device,
                                                                                                 chip::EndpointId ZCLendpointId,
                                                                                                 chip::GroupId /* ZCLgroupId */)
@@ -7011,6 +12139,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Packe
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_PacketUnicastTxCount(chip::DeviceProxy * device,
+                                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                                     uint16_t minInterval,
+                                                                                                     uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributePacketUnicastTxCount(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_CurrentMaxRate(chip::DeviceProxy * device,
                                                                                           chip::EndpointId ZCLendpointId,
                                                                                           chip::GroupId /* ZCLgroupId */)
@@ -7021,6 +12163,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Curre
     return cluster.ReadAttributeCurrentMaxRate(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_CurrentMaxRate(chip::DeviceProxy * device,
+                                                                                               chip::EndpointId ZCLendpointId,
+                                                                                               uint16_t minInterval,
+                                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCurrentMaxRate(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_OverrunCount(chip::DeviceProxy * device,
                                                                                         chip::EndpointId ZCLendpointId,
                                                                                         chip::GroupId /* ZCLgroupId */)
@@ -7031,6 +12187,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Overr
     return cluster.ReadAttributeOverrunCount(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_OverrunCount(chip::DeviceProxy * device,
+                                                                                             chip::EndpointId ZCLendpointId,
+                                                                                             uint16_t minInterval,
+                                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeOverrunCount(gInt64uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_ClusterRevision(chip::DeviceProxy * device,
                                                                                            chip::EndpointId ZCLendpointId,
                                                                                            chip::GroupId /* ZCLgroupId */)
@@ -7041,6 +12211,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Clust
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_ClusterRevision(chip::DeviceProxy * device,
+                                                                                                chip::EndpointId ZCLendpointId,
+                                                                                                uint16_t minInterval,
+                                                                                                uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster WiFiNetworkDiagnostics
 // Cluster WindowCovering
 
@@ -7053,6 +12237,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_Type(chip::De
     return cluster.ReadAttributeType(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WindowCovering_Type(chip::DeviceProxy * device,
+                                                                             chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WindowCoveringCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeType(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_CurrentPositionLift(chip::DeviceProxy * device,
                                                                                        chip::EndpointId ZCLendpointId,
                                                                                        chip::GroupId /* ZCLgroupId */)
@@ -7064,6 +12260,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_CurrentPositi
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WindowCovering_CurrentPositionLift(chip::DeviceProxy * device,
+                                                                                            chip::EndpointId ZCLendpointId,
+                                                                                            uint16_t minInterval,
+                                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WindowCoveringCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCurrentPositionLift(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                               maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_CurrentPositionTilt(chip::DeviceProxy * device,
                                                                                        chip::EndpointId ZCLendpointId,
                                                                                        chip::GroupId /* ZCLgroupId */)
@@ -7075,6 +12285,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_CurrentPositi
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WindowCovering_CurrentPositionTilt(chip::DeviceProxy * device,
+                                                                                            chip::EndpointId ZCLendpointId,
+                                                                                            uint16_t minInterval,
+                                                                                            uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WindowCoveringCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeCurrentPositionTilt(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                               maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_ConfigStatus(chip::DeviceProxy * device,
                                                                                 chip::EndpointId ZCLendpointId,
                                                                                 chip::GroupId /* ZCLgroupId */)
@@ -7085,6 +12309,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_ConfigStatus(
     return cluster.ReadAttributeConfigStatus(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WindowCovering_ConfigStatus(chip::DeviceProxy * device,
+                                                                                     chip::EndpointId ZCLendpointId,
+                                                                                     uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WindowCoveringCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeConfigStatus(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                        maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_CurrentPositionLiftPercentage(chip::DeviceProxy * device,
                                                                                                  chip::EndpointId ZCLendpointId,
                                                                                                  chip::GroupId /* ZCLgroupId */)
@@ -7213,6 +12450,19 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_EndProductTyp
     return cluster.ReadAttributeEndProductType(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WindowCovering_EndProductType(chip::DeviceProxy * device,
+                                                                                       chip::EndpointId ZCLendpointId,
+                                                                                       uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WindowCoveringCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeEndProductType(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                          maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_CurrentPositionLiftPercent100ths(chip::DeviceProxy * device,
                                                                                                     chip::EndpointId ZCLendpointId,
                                                                                                     chip::GroupId /* ZCLgroupId */)
@@ -7272,6 +12522,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_InstalledOpen
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WindowCovering_InstalledOpenLimitLift(chip::DeviceProxy * device,
+                                                                                               chip::EndpointId ZCLendpointId,
+                                                                                               uint16_t minInterval,
+                                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WindowCoveringCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeInstalledOpenLimitLift(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                  maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_InstalledClosedLimitLift(chip::DeviceProxy * device,
                                                                                             chip::EndpointId ZCLendpointId,
                                                                                             chip::GroupId /* ZCLgroupId */)
@@ -7283,6 +12547,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_InstalledClos
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WindowCovering_InstalledClosedLimitLift(chip::DeviceProxy * device,
+                                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                                 uint16_t minInterval,
+                                                                                                 uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WindowCoveringCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeInstalledClosedLimitLift(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(),
+                                                    minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_InstalledOpenLimitTilt(chip::DeviceProxy * device,
                                                                                           chip::EndpointId ZCLendpointId,
                                                                                           chip::GroupId /* ZCLgroupId */)
@@ -7294,6 +12572,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_InstalledOpen
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WindowCovering_InstalledOpenLimitTilt(chip::DeviceProxy * device,
+                                                                                               chip::EndpointId ZCLendpointId,
+                                                                                               uint16_t minInterval,
+                                                                                               uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WindowCoveringCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeInstalledOpenLimitTilt(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                                  maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_InstalledClosedLimitTilt(chip::DeviceProxy * device,
                                                                                             chip::EndpointId ZCLendpointId,
                                                                                             chip::GroupId /* ZCLgroupId */)
@@ -7305,6 +12597,20 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_InstalledClos
         .AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WindowCovering_InstalledClosedLimitTilt(chip::DeviceProxy * device,
+                                                                                                 chip::EndpointId ZCLendpointId,
+                                                                                                 uint16_t minInterval,
+                                                                                                 uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WindowCoveringCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeInstalledClosedLimitTilt(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(),
+                                                    minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_Mode(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId,
                                                                         chip::GroupId /* ZCLgroupId */)
 {
@@ -7314,6 +12620,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_Mode(chip::De
     return cluster.ReadAttributeMode(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WindowCovering_Mode(chip::DeviceProxy * device,
+                                                                             chip::EndpointId ZCLendpointId, uint16_t minInterval,
+                                                                             uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WindowCoveringCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeMode(gInt8uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_SafetyStatus(chip::DeviceProxy * device,
                                                                                 chip::EndpointId ZCLendpointId,
                                                                                 chip::GroupId /* ZCLgroupId */)
@@ -7347,6 +12665,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_FeatureMap(ch
     return cluster.ReadAttributeFeatureMap(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WindowCovering_FeatureMap(chip::DeviceProxy * device,
+                                                                                   chip::EndpointId ZCLendpointId,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WindowCoveringCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeFeatureMap(gInt32uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval)
+        .AsInteger();
+}
+
 chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_ClusterRevision(chip::DeviceProxy * device,
                                                                                    chip::EndpointId ZCLendpointId,
                                                                                    chip::GroupId /* ZCLgroupId */)
@@ -7357,5 +12687,18 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_WindowCovering_ClusterRevisi
     return cluster.ReadAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel()).AsInteger();
 }
 
+chip::ChipError::StorageType chip_ime_SubscribeAttribute_WindowCovering_ClusterRevision(chip::DeviceProxy * device,
+                                                                                        chip::EndpointId ZCLendpointId,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
+    chip::Controller::WindowCoveringCluster cluster;
+    cluster.Associate(device, ZCLendpointId);
+    return cluster
+        .SubscribeAttributeClusterRevision(gInt16uAttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval,
+                                           maxInterval)
+        .AsInteger();
+}
+
 // End of Cluster WindowCovering
 }
diff --git a/src/controller/python/chip/clusters/CHIPClusters.py b/src/controller/python/chip/clusters/CHIPClusters.py
index de3ae432bdaa16..01604ee17f8669 100644
--- a/src/controller/python/chip/clusters/CHIPClusters.py
+++ b/src/controller/python/chip/clusters/CHIPClusters.py
@@ -55,6 +55,7 @@ class ChipClusters:
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -93,6 +94,7 @@ class ChipClusters:
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -113,41 +115,49 @@ class ChipClusters:
                 "attributeName": "VendorName",
                 "attributeId": 0x00000000,
                 "type": "str",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "VendorId",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "ApplicationName",
                 "attributeId": 0x00000002,
                 "type": "str",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "ProductId",
                 "attributeId": 0x00000003,
                 "type": "int",
+                "reportable": True,
             },
             0x00000005: {
                 "attributeName": "ApplicationId",
                 "attributeId": 0x00000005,
                 "type": "str",
+                "reportable": True,
             },
             0x00000006: {
                 "attributeName": "CatalogVendorId",
                 "attributeId": 0x00000006,
                 "type": "int",
+                "reportable": True,
             },
             0x00000007: {
                 "attributeName": "ApplicationStatus",
                 "attributeId": 0x00000007,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -170,21 +180,25 @@ class ChipClusters:
                 "attributeName": "ApplicationLauncherList",
                 "attributeId": 0x00000000,
                 "type": "int",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "CatalogVendorId",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "ApplicationId",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -213,16 +227,19 @@ class ChipClusters:
                 "attributeName": "AudioOutputList",
                 "attributeId": 0x00000000,
                 "type": "",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "CurrentAudioOutput",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -249,26 +266,31 @@ class ChipClusters:
                 "attributeName": "BarrierMovingState",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "BarrierSafetyStatus",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "BarrierCapabilities",
                 "attributeId": 0x00000003,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000A: {
                 "attributeName": "BarrierPosition",
                 "attributeId": 0x0000000A,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -288,99 +310,118 @@ class ChipClusters:
                 "attributeName": "InteractionModelVersion",
                 "attributeId": 0x00000000,
                 "type": "int",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "VendorName",
                 "attributeId": 0x00000001,
                 "type": "str",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "VendorID",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "ProductName",
                 "attributeId": 0x00000003,
                 "type": "str",
+                "reportable": True,
             },
             0x00000004: {
                 "attributeName": "ProductID",
                 "attributeId": 0x00000004,
                 "type": "int",
+                "reportable": True,
             },
             0x00000005: {
                 "attributeName": "UserLabel",
                 "attributeId": 0x00000005,
                 "type": "str",
+                "reportable": True,
                 "writable": True,
             },
             0x00000006: {
                 "attributeName": "Location",
                 "attributeId": 0x00000006,
                 "type": "str",
+                "reportable": True,
                 "writable": True,
             },
             0x00000007: {
                 "attributeName": "HardwareVersion",
                 "attributeId": 0x00000007,
                 "type": "int",
+                "reportable": True,
             },
             0x00000008: {
                 "attributeName": "HardwareVersionString",
                 "attributeId": 0x00000008,
                 "type": "str",
+                "reportable": True,
             },
             0x00000009: {
                 "attributeName": "SoftwareVersion",
                 "attributeId": 0x00000009,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000A: {
                 "attributeName": "SoftwareVersionString",
                 "attributeId": 0x0000000A,
                 "type": "str",
+                "reportable": True,
             },
             0x0000000B: {
                 "attributeName": "ManufacturingDate",
                 "attributeId": 0x0000000B,
                 "type": "str",
+                "reportable": True,
             },
             0x0000000C: {
                 "attributeName": "PartNumber",
                 "attributeId": 0x0000000C,
                 "type": "str",
+                "reportable": True,
             },
             0x0000000D: {
                 "attributeName": "ProductURL",
                 "attributeId": 0x0000000D,
                 "type": "str",
+                "reportable": True,
             },
             0x0000000E: {
                 "attributeName": "ProductLabel",
                 "attributeId": 0x0000000E,
                 "type": "str",
+                "reportable": True,
             },
             0x0000000F: {
                 "attributeName": "SerialNumber",
                 "attributeId": 0x0000000F,
                 "type": "str",
+                "reportable": True,
             },
             0x00000010: {
                 "attributeName": "LocalConfigDisabled",
                 "attributeId": 0x00000010,
                 "type": "bool",
+                "reportable": True,
                 "writable": True,
             },
             0x00000011: {
                 "attributeName": "Reachable",
                 "attributeId": 0x00000011,
                 "type": "bool",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -394,6 +435,7 @@ class ChipClusters:
                 "attributeName": "OutOfService",
                 "attributeId": 0x00000051,
                 "type": "bool",
+                "reportable": True,
                 "writable": True,
             },
             0x00000055: {
@@ -413,6 +455,7 @@ class ChipClusters:
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -446,6 +489,7 @@ class ChipClusters:
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -465,6 +509,7 @@ class ChipClusters:
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -579,21 +624,25 @@ class ChipClusters:
                 "attributeName": "ActionList",
                 "attributeId": 0x00000000,
                 "type": "",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "EndpointList",
                 "attributeId": 0x00000001,
                 "type": "",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "SetupUrl",
                 "attributeId": 0x00000002,
                 "type": "str",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -607,6 +656,7 @@ class ChipClusters:
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -837,6 +887,7 @@ class ChipClusters:
                 "attributeName": "RemainingTime",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "CurrentX",
@@ -854,11 +905,13 @@ class ChipClusters:
                 "attributeName": "DriftCompensation",
                 "attributeId": 0x00000005,
                 "type": "int",
+                "reportable": True,
             },
             0x00000006: {
                 "attributeName": "CompensationText",
                 "attributeId": 0x00000006,
                 "type": "str",
+                "reportable": True,
             },
             0x00000007: {
                 "attributeName": "ColorTemperature",
@@ -870,239 +923,284 @@ class ChipClusters:
                 "attributeName": "ColorMode",
                 "attributeId": 0x00000008,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000F: {
                 "attributeName": "ColorControlOptions",
                 "attributeId": 0x0000000F,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000010: {
                 "attributeName": "NumberOfPrimaries",
                 "attributeId": 0x00000010,
                 "type": "int",
+                "reportable": True,
             },
             0x00000011: {
                 "attributeName": "Primary1X",
                 "attributeId": 0x00000011,
                 "type": "int",
+                "reportable": True,
             },
             0x00000012: {
                 "attributeName": "Primary1Y",
                 "attributeId": 0x00000012,
                 "type": "int",
+                "reportable": True,
             },
             0x00000013: {
                 "attributeName": "Primary1Intensity",
                 "attributeId": 0x00000013,
                 "type": "int",
+                "reportable": True,
             },
             0x00000015: {
                 "attributeName": "Primary2X",
                 "attributeId": 0x00000015,
                 "type": "int",
+                "reportable": True,
             },
             0x00000016: {
                 "attributeName": "Primary2Y",
                 "attributeId": 0x00000016,
                 "type": "int",
+                "reportable": True,
             },
             0x00000017: {
                 "attributeName": "Primary2Intensity",
                 "attributeId": 0x00000017,
                 "type": "int",
+                "reportable": True,
             },
             0x00000019: {
                 "attributeName": "Primary3X",
                 "attributeId": 0x00000019,
                 "type": "int",
+                "reportable": True,
             },
             0x0000001A: {
                 "attributeName": "Primary3Y",
                 "attributeId": 0x0000001A,
                 "type": "int",
+                "reportable": True,
             },
             0x0000001B: {
                 "attributeName": "Primary3Intensity",
                 "attributeId": 0x0000001B,
                 "type": "int",
+                "reportable": True,
             },
             0x00000020: {
                 "attributeName": "Primary4X",
                 "attributeId": 0x00000020,
                 "type": "int",
+                "reportable": True,
             },
             0x00000021: {
                 "attributeName": "Primary4Y",
                 "attributeId": 0x00000021,
                 "type": "int",
+                "reportable": True,
             },
             0x00000022: {
                 "attributeName": "Primary4Intensity",
                 "attributeId": 0x00000022,
                 "type": "int",
+                "reportable": True,
             },
             0x00000024: {
                 "attributeName": "Primary5X",
                 "attributeId": 0x00000024,
                 "type": "int",
+                "reportable": True,
             },
             0x00000025: {
                 "attributeName": "Primary5Y",
                 "attributeId": 0x00000025,
                 "type": "int",
+                "reportable": True,
             },
             0x00000026: {
                 "attributeName": "Primary5Intensity",
                 "attributeId": 0x00000026,
                 "type": "int",
+                "reportable": True,
             },
             0x00000028: {
                 "attributeName": "Primary6X",
                 "attributeId": 0x00000028,
                 "type": "int",
+                "reportable": True,
             },
             0x00000029: {
                 "attributeName": "Primary6Y",
                 "attributeId": 0x00000029,
                 "type": "int",
+                "reportable": True,
             },
             0x0000002A: {
                 "attributeName": "Primary6Intensity",
                 "attributeId": 0x0000002A,
                 "type": "int",
+                "reportable": True,
             },
             0x00000030: {
                 "attributeName": "WhitePointX",
                 "attributeId": 0x00000030,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000031: {
                 "attributeName": "WhitePointY",
                 "attributeId": 0x00000031,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000032: {
                 "attributeName": "ColorPointRX",
                 "attributeId": 0x00000032,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000033: {
                 "attributeName": "ColorPointRY",
                 "attributeId": 0x00000033,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000034: {
                 "attributeName": "ColorPointRIntensity",
                 "attributeId": 0x00000034,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000036: {
                 "attributeName": "ColorPointGX",
                 "attributeId": 0x00000036,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000037: {
                 "attributeName": "ColorPointGY",
                 "attributeId": 0x00000037,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000038: {
                 "attributeName": "ColorPointGIntensity",
                 "attributeId": 0x00000038,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x0000003A: {
                 "attributeName": "ColorPointBX",
                 "attributeId": 0x0000003A,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x0000003B: {
                 "attributeName": "ColorPointBY",
                 "attributeId": 0x0000003B,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x0000003C: {
                 "attributeName": "ColorPointBIntensity",
                 "attributeId": 0x0000003C,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00004000: {
                 "attributeName": "EnhancedCurrentHue",
                 "attributeId": 0x00004000,
                 "type": "int",
+                "reportable": True,
             },
             0x00004001: {
                 "attributeName": "EnhancedColorMode",
                 "attributeId": 0x00004001,
                 "type": "int",
+                "reportable": True,
             },
             0x00004002: {
                 "attributeName": "ColorLoopActive",
                 "attributeId": 0x00004002,
                 "type": "int",
+                "reportable": True,
             },
             0x00004003: {
                 "attributeName": "ColorLoopDirection",
                 "attributeId": 0x00004003,
                 "type": "int",
+                "reportable": True,
             },
             0x00004004: {
                 "attributeName": "ColorLoopTime",
                 "attributeId": 0x00004004,
                 "type": "int",
+                "reportable": True,
             },
             0x00004005: {
                 "attributeName": "ColorLoopStartEnhancedHue",
                 "attributeId": 0x00004005,
                 "type": "int",
+                "reportable": True,
             },
             0x00004006: {
                 "attributeName": "ColorLoopStoredEnhancedHue",
                 "attributeId": 0x00004006,
                 "type": "int",
+                "reportable": True,
             },
             0x0000400A: {
                 "attributeName": "ColorCapabilities",
                 "attributeId": 0x0000400A,
                 "type": "int",
+                "reportable": True,
             },
             0x0000400B: {
                 "attributeName": "ColorTempPhysicalMin",
                 "attributeId": 0x0000400B,
                 "type": "int",
+                "reportable": True,
             },
             0x0000400C: {
                 "attributeName": "ColorTempPhysicalMax",
                 "attributeId": 0x0000400C,
                 "type": "int",
+                "reportable": True,
             },
             0x0000400D: {
                 "attributeName": "CoupleColorTempToLevelMinMireds",
                 "attributeId": 0x0000400D,
                 "type": "int",
+                "reportable": True,
             },
             0x00004010: {
                 "attributeName": "StartUpColorTemperatureMireds",
                 "attributeId": 0x00004010,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -1132,16 +1230,19 @@ class ChipClusters:
                 "attributeName": "AcceptsHeaderList",
                 "attributeId": 0x00000000,
                 "type": "bytes",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "SupportedStreamingTypes",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -1155,26 +1256,31 @@ class ChipClusters:
                 "attributeName": "DeviceList",
                 "attributeId": 0x00000000,
                 "type": "",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "ServerList",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "ClientList",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "PartsList",
                 "attributeId": 0x00000003,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -1394,16 +1500,19 @@ class ChipClusters:
                 "attributeName": "LockType",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "ActuatorEnabled",
                 "attributeId": 0x00000002,
                 "type": "bool",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -1417,61 +1526,73 @@ class ChipClusters:
                 "attributeName": "MeasurementType",
                 "attributeId": 0x00000000,
                 "type": "int",
+                "reportable": True,
             },
             0x00000304: {
                 "attributeName": "TotalActivePower",
                 "attributeId": 0x00000304,
                 "type": "int",
+                "reportable": True,
             },
             0x00000505: {
                 "attributeName": "RmsVoltage",
                 "attributeId": 0x00000505,
                 "type": "int",
+                "reportable": True,
             },
             0x00000506: {
                 "attributeName": "RmsVoltageMin",
                 "attributeId": 0x00000506,
                 "type": "int",
+                "reportable": True,
             },
             0x00000507: {
                 "attributeName": "RmsVoltageMax",
                 "attributeId": 0x00000507,
                 "type": "int",
+                "reportable": True,
             },
             0x00000508: {
                 "attributeName": "RmsCurrent",
                 "attributeId": 0x00000508,
                 "type": "int",
+                "reportable": True,
             },
             0x00000509: {
                 "attributeName": "RmsCurrentMin",
                 "attributeId": 0x00000509,
                 "type": "int",
+                "reportable": True,
             },
             0x0000050A: {
                 "attributeName": "RmsCurrentMax",
                 "attributeId": 0x0000050A,
                 "type": "int",
+                "reportable": True,
             },
             0x0000050B: {
                 "attributeName": "ActivePower",
                 "attributeId": 0x0000050B,
                 "type": "int",
+                "reportable": True,
             },
             0x0000050C: {
                 "attributeName": "ActivePowerMin",
                 "attributeId": 0x0000050C,
                 "type": "int",
+                "reportable": True,
             },
             0x0000050D: {
                 "attributeName": "ActivePowerMax",
                 "attributeId": 0x0000050D,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -1491,51 +1612,61 @@ class ChipClusters:
                 "attributeName": "PHYRate",
                 "attributeId": 0x00000000,
                 "type": "int",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "FullDuplex",
                 "attributeId": 0x00000001,
                 "type": "bool",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "PacketRxCount",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "PacketTxCount",
                 "attributeId": 0x00000003,
                 "type": "int",
+                "reportable": True,
             },
             0x00000004: {
                 "attributeName": "TxErrCount",
                 "attributeId": 0x00000004,
                 "type": "int",
+                "reportable": True,
             },
             0x00000005: {
                 "attributeName": "CollisionCount",
                 "attributeId": 0x00000005,
                 "type": "int",
+                "reportable": True,
             },
             0x00000006: {
                 "attributeName": "OverrunCount",
                 "attributeId": 0x00000006,
                 "type": "int",
+                "reportable": True,
             },
             0x00000007: {
                 "attributeName": "CarrierDetect",
                 "attributeId": 0x00000007,
                 "type": "bool",
+                "reportable": True,
             },
             0x00000008: {
                 "attributeName": "TimeSinceReset",
                 "attributeId": 0x00000008,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -1549,11 +1680,13 @@ class ChipClusters:
                 "attributeName": "LabelList",
                 "attributeId": 0x00000000,
                 "type": "",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -1567,26 +1700,31 @@ class ChipClusters:
                 "attributeName": "MeasuredValue",
                 "attributeId": 0x00000000,
                 "type": "int",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "MinMeasuredValue",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "MaxMeasuredValue",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "Tolerance",
                 "attributeId": 0x00000003,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -1625,17 +1763,20 @@ class ChipClusters:
                 "attributeName": "Breadcrumb",
                 "attributeId": 0x00000000,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000001: {
                 "attributeName": "BasicCommissioningInfoList",
                 "attributeId": 0x00000001,
                 "type": "",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -1649,46 +1790,55 @@ class ChipClusters:
                 "attributeName": "NetworkInterfaces",
                 "attributeId": 0x00000000,
                 "type": "",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "RebootCount",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "UpTime",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "TotalOperationalHours",
                 "attributeId": 0x00000003,
                 "type": "int",
+                "reportable": True,
             },
             0x00000004: {
                 "attributeName": "BootReasons",
                 "attributeId": 0x00000004,
                 "type": "int",
+                "reportable": True,
             },
             0x00000005: {
                 "attributeName": "ActiveHardwareFaults",
                 "attributeId": 0x00000005,
                 "type": "int",
+                "reportable": True,
             },
             0x00000006: {
                 "attributeName": "ActiveRadioFaults",
                 "attributeId": 0x00000006,
                 "type": "int",
+                "reportable": True,
             },
             0x00000007: {
                 "attributeName": "ActiveNetworkFaults",
                 "attributeId": 0x00000007,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -1702,16 +1852,19 @@ class ChipClusters:
                 "attributeName": "Groups",
                 "attributeId": 0x00000000,
                 "type": "",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "GroupKeys",
                 "attributeId": 0x00000001,
                 "type": "",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -1768,11 +1921,13 @@ class ChipClusters:
                 "attributeName": "NameSupport",
                 "attributeId": 0x00000000,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -1807,17 +1962,20 @@ class ChipClusters:
                 "attributeName": "IdentifyTime",
                 "attributeId": 0x00000000,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000001: {
                 "attributeName": "IdentifyType",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -1837,26 +1995,31 @@ class ChipClusters:
                 "attributeName": "MinMeasuredValue",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "MaxMeasuredValue",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "Tolerance",
                 "attributeId": 0x00000003,
                 "type": "int",
+                "reportable": True,
             },
             0x00000004: {
                 "attributeName": "LightSensorType",
                 "attributeId": 0x00000004,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -1877,6 +2040,7 @@ class ChipClusters:
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -1966,78 +2130,92 @@ class ChipClusters:
                 "attributeName": "RemainingTime",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "MinLevel",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "MaxLevel",
                 "attributeId": 0x00000003,
                 "type": "int",
+                "reportable": True,
             },
             0x00000004: {
                 "attributeName": "CurrentFrequency",
                 "attributeId": 0x00000004,
                 "type": "int",
+                "reportable": True,
             },
             0x00000005: {
                 "attributeName": "MinFrequency",
                 "attributeId": 0x00000005,
                 "type": "int",
+                "reportable": True,
             },
             0x00000006: {
                 "attributeName": "MaxFrequency",
                 "attributeId": 0x00000006,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000F: {
                 "attributeName": "Options",
                 "attributeId": 0x0000000F,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000010: {
                 "attributeName": "OnOffTransitionTime",
                 "attributeId": 0x00000010,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000011: {
                 "attributeName": "OnLevel",
                 "attributeId": 0x00000011,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000012: {
                 "attributeName": "OnTransitionTime",
                 "attributeId": 0x00000012,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000013: {
                 "attributeName": "OffTransitionTime",
                 "attributeId": 0x00000013,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000014: {
                 "attributeName": "DefaultMoveRate",
                 "attributeId": 0x00000014,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00004000: {
                 "attributeName": "StartUpCurrentLevel",
                 "attributeId": 0x00004000,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -2057,6 +2235,7 @@ class ChipClusters:
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -2097,16 +2276,19 @@ class ChipClusters:
                 "attributeName": "MediaInputList",
                 "attributeId": 0x00000000,
                 "type": "",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "CurrentMediaInput",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -2189,46 +2371,55 @@ class ChipClusters:
                 "attributeName": "PlaybackState",
                 "attributeId": 0x00000000,
                 "type": "int",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "StartTime",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "Duration",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "PositionUpdatedAt",
                 "attributeId": 0x00000003,
                 "type": "int",
+                "reportable": True,
             },
             0x00000004: {
                 "attributeName": "Position",
                 "attributeId": 0x00000004,
                 "type": "int",
+                "reportable": True,
             },
             0x00000005: {
                 "attributeName": "PlaybackSpeed",
                 "attributeId": 0x00000005,
                 "type": "int",
+                "reportable": True,
             },
             0x00000006: {
                 "attributeName": "SeekRangeEnd",
                 "attributeId": 0x00000006,
                 "type": "int",
+                "reportable": True,
             },
             0x00000007: {
                 "attributeName": "SeekRangeStart",
                 "attributeId": 0x00000007,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -2255,27 +2446,32 @@ class ChipClusters:
                 "attributeName": "SupportedModes",
                 "attributeId": 0x00000001,
                 "type": "",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "OnMode",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000003: {
                 "attributeName": "StartUpMode",
                 "attributeId": 0x00000003,
                 "type": "int",
+                "reportable": True,
             },
             0x00000004: {
                 "attributeName": "Description",
                 "attributeId": 0x00000004,
                 "type": "str",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -2363,11 +2559,13 @@ class ChipClusters:
                 "attributeName": "FeatureMap",
                 "attributeId": 0x0000FFFC,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -2411,6 +2609,7 @@ class ChipClusters:
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -2434,17 +2633,20 @@ class ChipClusters:
                 "attributeName": "DefaultOtaProvider",
                 "attributeId": 0x00000001,
                 "type": "bytes",
+                "reportable": True,
                 "writable": True,
             },
             0x00000002: {
                 "attributeName": "UpdatePossible",
                 "attributeId": 0x00000002,
                 "type": "bool",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -2464,16 +2666,19 @@ class ChipClusters:
                 "attributeName": "OccupancySensorType",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "OccupancySensorTypeBitmap",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -2534,34 +2739,40 @@ class ChipClusters:
                 "attributeName": "GlobalSceneControl",
                 "attributeId": 0x00004000,
                 "type": "bool",
+                "reportable": True,
             },
             0x00004001: {
                 "attributeName": "OnTime",
                 "attributeId": 0x00004001,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00004002: {
                 "attributeName": "OffWaitTime",
                 "attributeId": 0x00004002,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00004003: {
                 "attributeName": "StartUpOnOff",
                 "attributeId": 0x00004003,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x0000FFFC: {
                 "attributeName": "FeatureMap",
                 "attributeId": 0x0000FFFC,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -2575,17 +2786,20 @@ class ChipClusters:
                 "attributeName": "SwitchType",
                 "attributeId": 0x00000000,
                 "type": "int",
+                "reportable": True,
             },
             0x00000010: {
                 "attributeName": "SwitchActions",
                 "attributeId": 0x00000010,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -2667,31 +2881,37 @@ class ChipClusters:
                 "attributeName": "FabricsList",
                 "attributeId": 0x00000001,
                 "type": "",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "SupportedFabrics",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "CommissionedFabrics",
                 "attributeId": 0x00000003,
                 "type": "int",
+                "reportable": True,
             },
             0x00000004: {
                 "attributeName": "TrustedRootCertificates",
                 "attributeId": 0x00000004,
                 "type": "bytes",
+                "reportable": True,
             },
             0x00000005: {
                 "attributeName": "CurrentFabricIndex",
                 "attributeId": 0x00000005,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -2705,56 +2925,67 @@ class ChipClusters:
                 "attributeName": "Status",
                 "attributeId": 0x00000000,
                 "type": "int",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "Order",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "Description",
                 "attributeId": 0x00000002,
                 "type": "str",
+                "reportable": True,
             },
             0x0000000B: {
                 "attributeName": "BatteryVoltage",
                 "attributeId": 0x0000000B,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000C: {
                 "attributeName": "BatteryPercentRemaining",
                 "attributeId": 0x0000000C,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000D: {
                 "attributeName": "BatteryTimeRemaining",
                 "attributeId": 0x0000000D,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000E: {
                 "attributeName": "BatteryChargeLevel",
                 "attributeId": 0x0000000E,
                 "type": "int",
+                "reportable": True,
             },
             0x00000012: {
                 "attributeName": "ActiveBatteryFaults",
                 "attributeId": 0x00000012,
                 "type": "int",
+                "reportable": True,
             },
             0x0000001A: {
                 "attributeName": "BatteryChargeState",
                 "attributeId": 0x0000001A,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFC: {
                 "attributeName": "FeatureMap",
                 "attributeId": 0x0000FFFC,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -2774,16 +3005,19 @@ class ChipClusters:
                 "attributeName": "MinMeasuredValue",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "MaxMeasuredValue",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -2797,66 +3031,79 @@ class ChipClusters:
                 "attributeName": "MaxPressure",
                 "attributeId": 0x00000000,
                 "type": "int",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "MaxSpeed",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "MaxFlow",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "MinConstPressure",
                 "attributeId": 0x00000003,
                 "type": "int",
+                "reportable": True,
             },
             0x00000004: {
                 "attributeName": "MaxConstPressure",
                 "attributeId": 0x00000004,
                 "type": "int",
+                "reportable": True,
             },
             0x00000005: {
                 "attributeName": "MinCompPressure",
                 "attributeId": 0x00000005,
                 "type": "int",
+                "reportable": True,
             },
             0x00000006: {
                 "attributeName": "MaxCompPressure",
                 "attributeId": 0x00000006,
                 "type": "int",
+                "reportable": True,
             },
             0x00000007: {
                 "attributeName": "MinConstSpeed",
                 "attributeId": 0x00000007,
                 "type": "int",
+                "reportable": True,
             },
             0x00000008: {
                 "attributeName": "MaxConstSpeed",
                 "attributeId": 0x00000008,
                 "type": "int",
+                "reportable": True,
             },
             0x00000009: {
                 "attributeName": "MinConstFlow",
                 "attributeId": 0x00000009,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000A: {
                 "attributeName": "MaxConstFlow",
                 "attributeId": 0x0000000A,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000B: {
                 "attributeName": "MinConstTemp",
                 "attributeId": 0x0000000B,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000C: {
                 "attributeName": "MaxConstTemp",
                 "attributeId": 0x0000000C,
                 "type": "int",
+                "reportable": True,
             },
             0x00000010: {
                 "attributeName": "PumpStatus",
@@ -2868,11 +3115,13 @@ class ChipClusters:
                 "attributeName": "EffectiveOperationMode",
                 "attributeId": 0x00000011,
                 "type": "int",
+                "reportable": True,
             },
             0x00000012: {
                 "attributeName": "EffectiveControlMode",
                 "attributeId": 0x00000012,
                 "type": "int",
+                "reportable": True,
             },
             0x00000013: {
                 "attributeName": "Capacity",
@@ -2884,38 +3133,45 @@ class ChipClusters:
                 "attributeName": "Speed",
                 "attributeId": 0x00000014,
                 "type": "int",
+                "reportable": True,
             },
             0x00000017: {
                 "attributeName": "LifetimeEnergyConsumed",
                 "attributeId": 0x00000017,
                 "type": "int",
+                "reportable": True,
             },
             0x00000020: {
                 "attributeName": "OperationMode",
                 "attributeId": 0x00000020,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000021: {
                 "attributeName": "ControlMode",
                 "attributeId": 0x00000021,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000022: {
                 "attributeName": "AlarmMask",
                 "attributeId": 0x00000022,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFC: {
                 "attributeName": "FeatureMap",
                 "attributeId": 0x0000FFFC,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -2935,11 +3191,13 @@ class ChipClusters:
                 "attributeName": "MinMeasuredValue",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "MaxMeasuredValue",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "Tolerance",
@@ -2951,6 +3209,7 @@ class ChipClusters:
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -3024,31 +3283,37 @@ class ChipClusters:
                 "attributeName": "SceneCount",
                 "attributeId": 0x00000000,
                 "type": "int",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "CurrentScene",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "CurrentGroup",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "SceneValid",
                 "attributeId": 0x00000003,
                 "type": "bool",
+                "reportable": True,
             },
             0x00000004: {
                 "attributeName": "NameSupport",
                 "attributeId": 0x00000004,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -3068,26 +3333,31 @@ class ChipClusters:
                 "attributeName": "ThreadMetrics",
                 "attributeId": 0x00000000,
                 "type": "",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "CurrentHeapFree",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "CurrentHeapUsed",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "CurrentHeapHighWatermark",
                 "attributeId": 0x00000003,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -3101,6 +3371,7 @@ class ChipClusters:
                 "attributeName": "NumberOfPositions",
                 "attributeId": 0x00000000,
                 "type": "int",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "CurrentPosition",
@@ -3112,16 +3383,19 @@ class ChipClusters:
                 "attributeName": "MultiPressMax",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFC: {
                 "attributeName": "FeatureMap",
                 "attributeId": 0x0000FFFC,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -3157,21 +3431,25 @@ class ChipClusters:
                 "attributeName": "TvChannelList",
                 "attributeId": 0x00000000,
                 "type": "",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "TvChannelLineup",
                 "attributeId": 0x00000001,
                 "type": "bytes",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "CurrentTvChannel",
                 "attributeId": 0x00000002,
                 "type": "bytes",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -3193,11 +3471,13 @@ class ChipClusters:
                 "attributeName": "TargetNavigatorList",
                 "attributeId": 0x00000000,
                 "type": "",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -3217,11 +3497,13 @@ class ChipClusters:
                 "attributeName": "MinMeasuredValue",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "MaxMeasuredValue",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "Tolerance",
@@ -3233,6 +3515,7 @@ class ChipClusters:
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -3331,269 +3614,314 @@ class ChipClusters:
                 "attributeName": "Boolean",
                 "attributeId": 0x00000000,
                 "type": "bool",
+                "reportable": True,
                 "writable": True,
             },
             0x00000001: {
                 "attributeName": "Bitmap8",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000002: {
                 "attributeName": "Bitmap16",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000003: {
                 "attributeName": "Bitmap32",
                 "attributeId": 0x00000003,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000004: {
                 "attributeName": "Bitmap64",
                 "attributeId": 0x00000004,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000005: {
                 "attributeName": "Int8u",
                 "attributeId": 0x00000005,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000006: {
                 "attributeName": "Int16u",
                 "attributeId": 0x00000006,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000008: {
                 "attributeName": "Int32u",
                 "attributeId": 0x00000008,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x0000000C: {
                 "attributeName": "Int64u",
                 "attributeId": 0x0000000C,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x0000000D: {
                 "attributeName": "Int8s",
                 "attributeId": 0x0000000D,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x0000000E: {
                 "attributeName": "Int16s",
                 "attributeId": 0x0000000E,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000010: {
                 "attributeName": "Int32s",
                 "attributeId": 0x00000010,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000014: {
                 "attributeName": "Int64s",
                 "attributeId": 0x00000014,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000015: {
                 "attributeName": "Enum8",
                 "attributeId": 0x00000015,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000016: {
                 "attributeName": "Enum16",
                 "attributeId": 0x00000016,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000019: {
                 "attributeName": "OctetString",
                 "attributeId": 0x00000019,
                 "type": "bytes",
+                "reportable": True,
                 "writable": True,
             },
             0x0000001A: {
                 "attributeName": "ListInt8u",
                 "attributeId": 0x0000001A,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x0000001B: {
                 "attributeName": "ListOctetString",
                 "attributeId": 0x0000001B,
                 "type": "bytes",
+                "reportable": True,
                 "writable": True,
             },
             0x0000001C: {
                 "attributeName": "ListStructOctetString",
                 "attributeId": 0x0000001C,
                 "type": "",
+                "reportable": True,
                 "writable": True,
             },
             0x0000001D: {
                 "attributeName": "LongOctetString",
                 "attributeId": 0x0000001D,
                 "type": "bytes",
+                "reportable": True,
                 "writable": True,
             },
             0x0000001E: {
                 "attributeName": "CharString",
                 "attributeId": 0x0000001E,
                 "type": "str",
+                "reportable": True,
                 "writable": True,
             },
             0x0000001F: {
                 "attributeName": "LongCharString",
                 "attributeId": 0x0000001F,
                 "type": "str",
+                "reportable": True,
                 "writable": True,
             },
             0x00000020: {
                 "attributeName": "EpochUs",
                 "attributeId": 0x00000020,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000021: {
                 "attributeName": "EpochS",
                 "attributeId": 0x00000021,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000022: {
                 "attributeName": "VendorId",
                 "attributeId": 0x00000022,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000023: {
                 "attributeName": "ListNullablesAndOptionalsStruct",
                 "attributeId": 0x00000023,
                 "type": "",
+                "reportable": True,
             },
             0x000000FF: {
                 "attributeName": "Unsupported",
                 "attributeId": 0x000000FF,
                 "type": "bool",
+                "reportable": True,
                 "writable": True,
             },
             0x00008000: {
                 "attributeName": "NullableBoolean",
                 "attributeId": 0x00008000,
                 "type": "bool",
+                "reportable": True,
                 "writable": True,
             },
             0x00008001: {
                 "attributeName": "NullableBitmap8",
                 "attributeId": 0x00008001,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00008002: {
                 "attributeName": "NullableBitmap16",
                 "attributeId": 0x00008002,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00008003: {
                 "attributeName": "NullableBitmap32",
                 "attributeId": 0x00008003,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00008004: {
                 "attributeName": "NullableBitmap64",
                 "attributeId": 0x00008004,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00008005: {
                 "attributeName": "NullableInt8u",
                 "attributeId": 0x00008005,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00008006: {
                 "attributeName": "NullableInt16u",
                 "attributeId": 0x00008006,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00008008: {
                 "attributeName": "NullableInt32u",
                 "attributeId": 0x00008008,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x0000800C: {
                 "attributeName": "NullableInt64u",
                 "attributeId": 0x0000800C,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x0000800D: {
                 "attributeName": "NullableInt8s",
                 "attributeId": 0x0000800D,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x0000800E: {
                 "attributeName": "NullableInt16s",
                 "attributeId": 0x0000800E,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00008010: {
                 "attributeName": "NullableInt32s",
                 "attributeId": 0x00008010,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00008014: {
                 "attributeName": "NullableInt64s",
                 "attributeId": 0x00008014,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00008015: {
                 "attributeName": "NullableEnum8",
                 "attributeId": 0x00008015,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00008016: {
                 "attributeName": "NullableEnum16",
                 "attributeId": 0x00008016,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00008019: {
                 "attributeName": "NullableOctetString",
                 "attributeId": 0x00008019,
                 "type": "bytes",
+                "reportable": True,
                 "writable": True,
             },
             0x0000801E: {
                 "attributeName": "NullableCharString",
                 "attributeId": 0x0000801E,
                 "type": "str",
+                "reportable": True,
                 "writable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -3651,100 +3979,118 @@ class ChipClusters:
                 "attributeName": "AbsMinHeatSetpointLimit",
                 "attributeId": 0x00000003,
                 "type": "int",
+                "reportable": True,
             },
             0x00000004: {
                 "attributeName": "AbsMaxHeatSetpointLimit",
                 "attributeId": 0x00000004,
                 "type": "int",
+                "reportable": True,
             },
             0x00000005: {
                 "attributeName": "AbsMinCoolSetpointLimit",
                 "attributeId": 0x00000005,
                 "type": "int",
+                "reportable": True,
             },
             0x00000006: {
                 "attributeName": "AbsMaxCoolSetpointLimit",
                 "attributeId": 0x00000006,
                 "type": "int",
+                "reportable": True,
             },
             0x00000011: {
                 "attributeName": "OccupiedCoolingSetpoint",
                 "attributeId": 0x00000011,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000012: {
                 "attributeName": "OccupiedHeatingSetpoint",
                 "attributeId": 0x00000012,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000015: {
                 "attributeName": "MinHeatSetpointLimit",
                 "attributeId": 0x00000015,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000016: {
                 "attributeName": "MaxHeatSetpointLimit",
                 "attributeId": 0x00000016,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000017: {
                 "attributeName": "MinCoolSetpointLimit",
                 "attributeId": 0x00000017,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000018: {
                 "attributeName": "MaxCoolSetpointLimit",
                 "attributeId": 0x00000018,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000019: {
                 "attributeName": "MinSetpointDeadBand",
                 "attributeId": 0x00000019,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x0000001B: {
                 "attributeName": "ControlSequenceOfOperation",
                 "attributeId": 0x0000001B,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x0000001C: {
                 "attributeName": "SystemMode",
                 "attributeId": 0x0000001C,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000020: {
                 "attributeName": "StartOfWeek",
                 "attributeId": 0x00000020,
                 "type": "int",
+                "reportable": True,
             },
             0x00000021: {
                 "attributeName": "NumberOfWeeklyTransitions",
                 "attributeId": 0x00000021,
                 "type": "int",
+                "reportable": True,
             },
             0x00000022: {
                 "attributeName": "NumberOfDailyTransitions",
                 "attributeId": 0x00000022,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFC: {
                 "attributeName": "FeatureMap",
                 "attributeId": 0x0000FFFC,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -3758,24 +4104,28 @@ class ChipClusters:
                 "attributeName": "TemperatureDisplayMode",
                 "attributeId": 0x00000000,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000001: {
                 "attributeName": "KeypadLockout",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x00000002: {
                 "attributeName": "ScheduleProgrammingVisibility",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -3795,321 +4145,385 @@ class ChipClusters:
                 "attributeName": "Channel",
                 "attributeId": 0x00000000,
                 "type": "int",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "RoutingRole",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "NetworkName",
                 "attributeId": 0x00000002,
                 "type": "bytes",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "PanId",
                 "attributeId": 0x00000003,
                 "type": "int",
+                "reportable": True,
             },
             0x00000004: {
                 "attributeName": "ExtendedPanId",
                 "attributeId": 0x00000004,
                 "type": "int",
+                "reportable": True,
             },
             0x00000005: {
                 "attributeName": "MeshLocalPrefix",
                 "attributeId": 0x00000005,
                 "type": "bytes",
+                "reportable": True,
             },
             0x00000006: {
                 "attributeName": "OverrunCount",
                 "attributeId": 0x00000006,
                 "type": "int",
+                "reportable": True,
             },
             0x00000007: {
                 "attributeName": "NeighborTableList",
                 "attributeId": 0x00000007,
                 "type": "",
+                "reportable": True,
             },
             0x00000008: {
                 "attributeName": "RouteTableList",
                 "attributeId": 0x00000008,
                 "type": "",
+                "reportable": True,
             },
             0x00000009: {
                 "attributeName": "PartitionId",
                 "attributeId": 0x00000009,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000A: {
                 "attributeName": "Weighting",
                 "attributeId": 0x0000000A,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000B: {
                 "attributeName": "DataVersion",
                 "attributeId": 0x0000000B,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000C: {
                 "attributeName": "StableDataVersion",
                 "attributeId": 0x0000000C,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000D: {
                 "attributeName": "LeaderRouterId",
                 "attributeId": 0x0000000D,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000E: {
                 "attributeName": "DetachedRoleCount",
                 "attributeId": 0x0000000E,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000F: {
                 "attributeName": "ChildRoleCount",
                 "attributeId": 0x0000000F,
                 "type": "int",
+                "reportable": True,
             },
             0x00000010: {
                 "attributeName": "RouterRoleCount",
                 "attributeId": 0x00000010,
                 "type": "int",
+                "reportable": True,
             },
             0x00000011: {
                 "attributeName": "LeaderRoleCount",
                 "attributeId": 0x00000011,
                 "type": "int",
+                "reportable": True,
             },
             0x00000012: {
                 "attributeName": "AttachAttemptCount",
                 "attributeId": 0x00000012,
                 "type": "int",
+                "reportable": True,
             },
             0x00000013: {
                 "attributeName": "PartitionIdChangeCount",
                 "attributeId": 0x00000013,
                 "type": "int",
+                "reportable": True,
             },
             0x00000014: {
                 "attributeName": "BetterPartitionAttachAttemptCount",
                 "attributeId": 0x00000014,
                 "type": "int",
+                "reportable": True,
             },
             0x00000015: {
                 "attributeName": "ParentChangeCount",
                 "attributeId": 0x00000015,
                 "type": "int",
+                "reportable": True,
             },
             0x00000016: {
                 "attributeName": "TxTotalCount",
                 "attributeId": 0x00000016,
                 "type": "int",
+                "reportable": True,
             },
             0x00000017: {
                 "attributeName": "TxUnicastCount",
                 "attributeId": 0x00000017,
                 "type": "int",
+                "reportable": True,
             },
             0x00000018: {
                 "attributeName": "TxBroadcastCount",
                 "attributeId": 0x00000018,
                 "type": "int",
+                "reportable": True,
             },
             0x00000019: {
                 "attributeName": "TxAckRequestedCount",
                 "attributeId": 0x00000019,
                 "type": "int",
+                "reportable": True,
             },
             0x0000001A: {
                 "attributeName": "TxAckedCount",
                 "attributeId": 0x0000001A,
                 "type": "int",
+                "reportable": True,
             },
             0x0000001B: {
                 "attributeName": "TxNoAckRequestedCount",
                 "attributeId": 0x0000001B,
                 "type": "int",
+                "reportable": True,
             },
             0x0000001C: {
                 "attributeName": "TxDataCount",
                 "attributeId": 0x0000001C,
                 "type": "int",
+                "reportable": True,
             },
             0x0000001D: {
                 "attributeName": "TxDataPollCount",
                 "attributeId": 0x0000001D,
                 "type": "int",
+                "reportable": True,
             },
             0x0000001E: {
                 "attributeName": "TxBeaconCount",
                 "attributeId": 0x0000001E,
                 "type": "int",
+                "reportable": True,
             },
             0x0000001F: {
                 "attributeName": "TxBeaconRequestCount",
                 "attributeId": 0x0000001F,
                 "type": "int",
+                "reportable": True,
             },
             0x00000020: {
                 "attributeName": "TxOtherCount",
                 "attributeId": 0x00000020,
                 "type": "int",
+                "reportable": True,
             },
             0x00000021: {
                 "attributeName": "TxRetryCount",
                 "attributeId": 0x00000021,
                 "type": "int",
+                "reportable": True,
             },
             0x00000022: {
                 "attributeName": "TxDirectMaxRetryExpiryCount",
                 "attributeId": 0x00000022,
                 "type": "int",
+                "reportable": True,
             },
             0x00000023: {
                 "attributeName": "TxIndirectMaxRetryExpiryCount",
                 "attributeId": 0x00000023,
                 "type": "int",
+                "reportable": True,
             },
             0x00000024: {
                 "attributeName": "TxErrCcaCount",
                 "attributeId": 0x00000024,
                 "type": "int",
+                "reportable": True,
             },
             0x00000025: {
                 "attributeName": "TxErrAbortCount",
                 "attributeId": 0x00000025,
                 "type": "int",
+                "reportable": True,
             },
             0x00000026: {
                 "attributeName": "TxErrBusyChannelCount",
                 "attributeId": 0x00000026,
                 "type": "int",
+                "reportable": True,
             },
             0x00000027: {
                 "attributeName": "RxTotalCount",
                 "attributeId": 0x00000027,
                 "type": "int",
+                "reportable": True,
             },
             0x00000028: {
                 "attributeName": "RxUnicastCount",
                 "attributeId": 0x00000028,
                 "type": "int",
+                "reportable": True,
             },
             0x00000029: {
                 "attributeName": "RxBroadcastCount",
                 "attributeId": 0x00000029,
                 "type": "int",
+                "reportable": True,
             },
             0x0000002A: {
                 "attributeName": "RxDataCount",
                 "attributeId": 0x0000002A,
                 "type": "int",
+                "reportable": True,
             },
             0x0000002B: {
                 "attributeName": "RxDataPollCount",
                 "attributeId": 0x0000002B,
                 "type": "int",
+                "reportable": True,
             },
             0x0000002C: {
                 "attributeName": "RxBeaconCount",
                 "attributeId": 0x0000002C,
                 "type": "int",
+                "reportable": True,
             },
             0x0000002D: {
                 "attributeName": "RxBeaconRequestCount",
                 "attributeId": 0x0000002D,
                 "type": "int",
+                "reportable": True,
             },
             0x0000002E: {
                 "attributeName": "RxOtherCount",
                 "attributeId": 0x0000002E,
                 "type": "int",
+                "reportable": True,
             },
             0x0000002F: {
                 "attributeName": "RxAddressFilteredCount",
                 "attributeId": 0x0000002F,
                 "type": "int",
+                "reportable": True,
             },
             0x00000030: {
                 "attributeName": "RxDestAddrFilteredCount",
                 "attributeId": 0x00000030,
                 "type": "int",
+                "reportable": True,
             },
             0x00000031: {
                 "attributeName": "RxDuplicatedCount",
                 "attributeId": 0x00000031,
                 "type": "int",
+                "reportable": True,
             },
             0x00000032: {
                 "attributeName": "RxErrNoFrameCount",
                 "attributeId": 0x00000032,
                 "type": "int",
+                "reportable": True,
             },
             0x00000033: {
                 "attributeName": "RxErrUnknownNeighborCount",
                 "attributeId": 0x00000033,
                 "type": "int",
+                "reportable": True,
             },
             0x00000034: {
                 "attributeName": "RxErrInvalidSrcAddrCount",
                 "attributeId": 0x00000034,
                 "type": "int",
+                "reportable": True,
             },
             0x00000035: {
                 "attributeName": "RxErrSecCount",
                 "attributeId": 0x00000035,
                 "type": "int",
+                "reportable": True,
             },
             0x00000036: {
                 "attributeName": "RxErrFcsCount",
                 "attributeId": 0x00000036,
                 "type": "int",
+                "reportable": True,
             },
             0x00000037: {
                 "attributeName": "RxErrOtherCount",
                 "attributeId": 0x00000037,
                 "type": "int",
+                "reportable": True,
             },
             0x00000038: {
                 "attributeName": "ActiveTimestamp",
                 "attributeId": 0x00000038,
                 "type": "int",
+                "reportable": True,
             },
             0x00000039: {
                 "attributeName": "PendingTimestamp",
                 "attributeId": 0x00000039,
                 "type": "int",
+                "reportable": True,
             },
             0x0000003A: {
                 "attributeName": "Delay",
                 "attributeId": 0x0000003A,
                 "type": "int",
+                "reportable": True,
             },
             0x0000003B: {
                 "attributeName": "SecurityPolicy",
                 "attributeId": 0x0000003B,
                 "type": "",
+                "reportable": True,
             },
             0x0000003C: {
                 "attributeName": "ChannelMask",
                 "attributeId": 0x0000003C,
                 "type": "bytes",
+                "reportable": True,
             },
             0x0000003D: {
                 "attributeName": "OperationalDatasetComponents",
                 "attributeId": 0x0000003D,
                 "type": "",
+                "reportable": True,
             },
             0x0000003E: {
                 "attributeName": "ActiveNetworkFaultsList",
                 "attributeId": 0x0000003E,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -4123,11 +4537,13 @@ class ChipClusters:
                 "attributeName": "WakeOnLanMacAddress",
                 "attributeId": 0x00000000,
                 "type": "str",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -4147,71 +4563,85 @@ class ChipClusters:
                 "attributeName": "Bssid",
                 "attributeId": 0x00000000,
                 "type": "bytes",
+                "reportable": True,
             },
             0x00000001: {
                 "attributeName": "SecurityType",
                 "attributeId": 0x00000001,
                 "type": "int",
+                "reportable": True,
             },
             0x00000002: {
                 "attributeName": "WiFiVersion",
                 "attributeId": 0x00000002,
                 "type": "int",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "ChannelNumber",
                 "attributeId": 0x00000003,
                 "type": "int",
+                "reportable": True,
             },
             0x00000004: {
                 "attributeName": "Rssi",
                 "attributeId": 0x00000004,
                 "type": "int",
+                "reportable": True,
             },
             0x00000005: {
                 "attributeName": "BeaconLostCount",
                 "attributeId": 0x00000005,
                 "type": "int",
+                "reportable": True,
             },
             0x00000006: {
                 "attributeName": "BeaconRxCount",
                 "attributeId": 0x00000006,
                 "type": "int",
+                "reportable": True,
             },
             0x00000007: {
                 "attributeName": "PacketMulticastRxCount",
                 "attributeId": 0x00000007,
                 "type": "int",
+                "reportable": True,
             },
             0x00000008: {
                 "attributeName": "PacketMulticastTxCount",
                 "attributeId": 0x00000008,
                 "type": "int",
+                "reportable": True,
             },
             0x00000009: {
                 "attributeName": "PacketUnicastRxCount",
                 "attributeId": 0x00000009,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000A: {
                 "attributeName": "PacketUnicastTxCount",
                 "attributeId": 0x0000000A,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000B: {
                 "attributeName": "CurrentMaxRate",
                 "attributeId": 0x0000000B,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000C: {
                 "attributeName": "OverrunCount",
                 "attributeId": 0x0000000C,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -4273,21 +4703,25 @@ class ChipClusters:
                 "attributeName": "Type",
                 "attributeId": 0x00000000,
                 "type": "int",
+                "reportable": True,
             },
             0x00000003: {
                 "attributeName": "CurrentPositionLift",
                 "attributeId": 0x00000003,
                 "type": "int",
+                "reportable": True,
             },
             0x00000004: {
                 "attributeName": "CurrentPositionTilt",
                 "attributeId": 0x00000004,
                 "type": "int",
+                "reportable": True,
             },
             0x00000007: {
                 "attributeName": "ConfigStatus",
                 "attributeId": 0x00000007,
                 "type": "int",
+                "reportable": True,
             },
             0x00000008: {
                 "attributeName": "CurrentPositionLiftPercentage",
@@ -4323,6 +4757,7 @@ class ChipClusters:
                 "attributeName": "EndProductType",
                 "attributeId": 0x0000000D,
                 "type": "int",
+                "reportable": True,
             },
             0x0000000E: {
                 "attributeName": "CurrentPositionLiftPercent100ths",
@@ -4340,26 +4775,31 @@ class ChipClusters:
                 "attributeName": "InstalledOpenLimitLift",
                 "attributeId": 0x00000010,
                 "type": "int",
+                "reportable": True,
             },
             0x00000011: {
                 "attributeName": "InstalledClosedLimitLift",
                 "attributeId": 0x00000011,
                 "type": "int",
+                "reportable": True,
             },
             0x00000012: {
                 "attributeName": "InstalledOpenLimitTilt",
                 "attributeId": 0x00000012,
                 "type": "int",
+                "reportable": True,
             },
             0x00000013: {
                 "attributeName": "InstalledClosedLimitTilt",
                 "attributeId": 0x00000013,
                 "type": "int",
+                "reportable": True,
             },
             0x00000017: {
                 "attributeName": "Mode",
                 "attributeId": 0x00000017,
                 "type": "int",
+                "reportable": True,
                 "writable": True,
             },
             0x0000001A: {
@@ -4372,11 +4812,13 @@ class ChipClusters:
                 "attributeName": "FeatureMap",
                 "attributeId": 0x0000FFFC,
                 "type": "int",
+                "reportable": True,
             },
             0x0000FFFD: {
                 "attributeName": "ClusterRevision",
                 "attributeId": 0x0000FFFD,
                 "type": "int",
+                "reportable": True,
             },
         },
     }
@@ -4566,129 +5008,249 @@ def WriteAttribute(self, device: ctypes.c_void_p, cluster: str, attribute: str,
     def ClusterAccountLogin_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_AccountLogin_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterAccountLogin_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_AccountLogin_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterAdministratorCommissioning_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_AdministratorCommissioning_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterAdministratorCommissioning_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_AdministratorCommissioning_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterApplicationBasic_ReadAttributeVendorName(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_VendorName(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterApplicationBasic_SubscribeAttributeVendorName(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_VendorName(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterApplicationBasic_ReadAttributeVendorId(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_VendorId(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterApplicationBasic_SubscribeAttributeVendorId(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_VendorId(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterApplicationBasic_ReadAttributeApplicationName(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_ApplicationName(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterApplicationBasic_SubscribeAttributeApplicationName(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_ApplicationName(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterApplicationBasic_ReadAttributeProductId(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_ProductId(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterApplicationBasic_SubscribeAttributeProductId(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_ProductId(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterApplicationBasic_ReadAttributeApplicationId(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_ApplicationId(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterApplicationBasic_SubscribeAttributeApplicationId(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_ApplicationId(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterApplicationBasic_ReadAttributeCatalogVendorId(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_CatalogVendorId(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterApplicationBasic_SubscribeAttributeCatalogVendorId(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_CatalogVendorId(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterApplicationBasic_ReadAttributeApplicationStatus(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_ApplicationStatus(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterApplicationBasic_SubscribeAttributeApplicationStatus(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_ApplicationStatus(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterApplicationBasic_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterApplicationBasic_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterApplicationLauncher_ReadAttributeApplicationLauncherList(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ApplicationLauncher_ApplicationLauncherList(device, ZCLendpoint, ZCLgroupid)
 
     def ClusterApplicationLauncher_ReadAttributeCatalogVendorId(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ApplicationLauncher_CatalogVendorId(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterApplicationLauncher_SubscribeAttributeCatalogVendorId(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ApplicationLauncher_CatalogVendorId(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterApplicationLauncher_ReadAttributeApplicationId(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ApplicationLauncher_ApplicationId(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterApplicationLauncher_SubscribeAttributeApplicationId(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ApplicationLauncher_ApplicationId(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterApplicationLauncher_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ApplicationLauncher_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterApplicationLauncher_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ApplicationLauncher_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterAudioOutput_ReadAttributeAudioOutputList(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_AudioOutput_AudioOutputList(device, ZCLendpoint, ZCLgroupid)
 
     def ClusterAudioOutput_ReadAttributeCurrentAudioOutput(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_AudioOutput_CurrentAudioOutput(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterAudioOutput_SubscribeAttributeCurrentAudioOutput(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_AudioOutput_CurrentAudioOutput(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterAudioOutput_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_AudioOutput_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterAudioOutput_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_AudioOutput_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBarrierControl_ReadAttributeBarrierMovingState(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_BarrierControl_BarrierMovingState(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBarrierControl_SubscribeAttributeBarrierMovingState(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_BarrierControl_BarrierMovingState(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBarrierControl_ReadAttributeBarrierSafetyStatus(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_BarrierControl_BarrierSafetyStatus(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBarrierControl_SubscribeAttributeBarrierSafetyStatus(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_BarrierControl_BarrierSafetyStatus(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBarrierControl_ReadAttributeBarrierCapabilities(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_BarrierControl_BarrierCapabilities(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBarrierControl_SubscribeAttributeBarrierCapabilities(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_BarrierControl_BarrierCapabilities(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBarrierControl_ReadAttributeBarrierPosition(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_BarrierControl_BarrierPosition(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBarrierControl_SubscribeAttributeBarrierPosition(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_BarrierControl_BarrierPosition(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBarrierControl_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_BarrierControl_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBarrierControl_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_BarrierControl_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBasic_ReadAttributeInteractionModelVersion(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Basic_InteractionModelVersion(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBasic_SubscribeAttributeInteractionModelVersion(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Basic_InteractionModelVersion(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBasic_ReadAttributeVendorName(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Basic_VendorName(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBasic_SubscribeAttributeVendorName(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Basic_VendorName(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBasic_ReadAttributeVendorID(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Basic_VendorID(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBasic_SubscribeAttributeVendorID(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Basic_VendorID(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBasic_ReadAttributeProductName(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Basic_ProductName(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBasic_SubscribeAttributeProductName(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Basic_ProductName(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBasic_ReadAttributeProductID(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Basic_ProductID(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBasic_SubscribeAttributeProductID(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Basic_ProductID(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBasic_ReadAttributeUserLabel(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Basic_UserLabel(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBasic_SubscribeAttributeUserLabel(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Basic_UserLabel(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBasic_ReadAttributeLocation(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Basic_Location(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBasic_SubscribeAttributeLocation(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Basic_Location(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBasic_ReadAttributeHardwareVersion(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Basic_HardwareVersion(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBasic_SubscribeAttributeHardwareVersion(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Basic_HardwareVersion(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBasic_ReadAttributeHardwareVersionString(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Basic_HardwareVersionString(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBasic_SubscribeAttributeHardwareVersionString(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Basic_HardwareVersionString(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBasic_ReadAttributeSoftwareVersion(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Basic_SoftwareVersion(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBasic_SubscribeAttributeSoftwareVersion(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Basic_SoftwareVersion(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBasic_ReadAttributeSoftwareVersionString(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Basic_SoftwareVersionString(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBasic_SubscribeAttributeSoftwareVersionString(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Basic_SoftwareVersionString(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBasic_ReadAttributeManufacturingDate(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Basic_ManufacturingDate(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBasic_SubscribeAttributeManufacturingDate(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Basic_ManufacturingDate(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBasic_ReadAttributePartNumber(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Basic_PartNumber(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBasic_SubscribeAttributePartNumber(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Basic_PartNumber(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBasic_ReadAttributeProductURL(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Basic_ProductURL(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBasic_SubscribeAttributeProductURL(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Basic_ProductURL(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBasic_ReadAttributeProductLabel(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Basic_ProductLabel(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBasic_SubscribeAttributeProductLabel(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Basic_ProductLabel(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBasic_ReadAttributeSerialNumber(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Basic_SerialNumber(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBasic_SubscribeAttributeSerialNumber(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Basic_SerialNumber(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBasic_ReadAttributeLocalConfigDisabled(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Basic_LocalConfigDisabled(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBasic_SubscribeAttributeLocalConfigDisabled(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Basic_LocalConfigDisabled(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBasic_ReadAttributeReachable(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Basic_Reachable(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBasic_SubscribeAttributeReachable(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Basic_Reachable(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBasic_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Basic_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBasic_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Basic_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBinaryInputBasic_ReadAttributeOutOfService(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_BinaryInputBasic_OutOfService(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBinaryInputBasic_SubscribeAttributeOutOfService(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_BinaryInputBasic_OutOfService(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBinaryInputBasic_ReadAttributePresentValue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_BinaryInputBasic_PresentValue(device, ZCLendpoint, ZCLgroupid)
 
@@ -4704,9 +5266,15 @@ def ClusterBinaryInputBasic_SubscribeAttributeStatusFlags(self, device: ctypes.c
     def ClusterBinaryInputBasic_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_BinaryInputBasic_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBinaryInputBasic_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_BinaryInputBasic_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBinding_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Binding_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBinding_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Binding_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBooleanState_ReadAttributeStateValue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_BooleanState_StateValue(device, ZCLendpoint, ZCLgroupid)
 
@@ -4716,6 +5284,9 @@ def ClusterBooleanState_SubscribeAttributeStateValue(self, device: ctypes.c_void
     def ClusterBooleanState_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_BooleanState_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBooleanState_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_BooleanState_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBridgedActions_ReadAttributeActionList(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_BridgedActions_ActionList(device, ZCLendpoint, ZCLgroupid)
 
@@ -4725,12 +5296,21 @@ def ClusterBridgedActions_ReadAttributeEndpointList(self, device: ctypes.c_void_
     def ClusterBridgedActions_ReadAttributeSetupUrl(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_BridgedActions_SetupUrl(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBridgedActions_SubscribeAttributeSetupUrl(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_BridgedActions_SetupUrl(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBridgedActions_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_BridgedActions_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBridgedActions_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_BridgedActions_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterBridgedDeviceBasicInformation_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_BridgedDeviceBasicInformation_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterBridgedDeviceBasicInformation_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_BridgedDeviceBasicInformation_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeCurrentHue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_CurrentHue(device, ZCLendpoint, ZCLgroupid)
 
@@ -4746,6 +5326,9 @@ def ClusterColorControl_SubscribeAttributeCurrentSaturation(self, device: ctypes
     def ClusterColorControl_ReadAttributeRemainingTime(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_RemainingTime(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeRemainingTime(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_RemainingTime(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeCurrentX(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_CurrentX(device, ZCLendpoint, ZCLgroupid)
 
@@ -4761,9 +5344,15 @@ def ClusterColorControl_SubscribeAttributeCurrentY(self, device: ctypes.c_void_p
     def ClusterColorControl_ReadAttributeDriftCompensation(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_DriftCompensation(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeDriftCompensation(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_DriftCompensation(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeCompensationText(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_CompensationText(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeCompensationText(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_CompensationText(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeColorTemperature(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorTemperature(device, ZCLendpoint, ZCLgroupid)
 
@@ -4773,138 +5362,273 @@ def ClusterColorControl_SubscribeAttributeColorTemperature(self, device: ctypes.
     def ClusterColorControl_ReadAttributeColorMode(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorMode(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeColorMode(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorMode(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeColorControlOptions(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorControlOptions(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeColorControlOptions(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorControlOptions(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeNumberOfPrimaries(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_NumberOfPrimaries(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeNumberOfPrimaries(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_NumberOfPrimaries(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributePrimary1X(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary1X(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributePrimary1X(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary1X(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributePrimary1Y(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary1Y(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributePrimary1Y(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary1Y(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributePrimary1Intensity(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary1Intensity(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributePrimary1Intensity(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary1Intensity(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributePrimary2X(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary2X(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributePrimary2X(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary2X(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributePrimary2Y(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary2Y(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributePrimary2Y(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary2Y(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributePrimary2Intensity(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary2Intensity(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributePrimary2Intensity(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary2Intensity(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributePrimary3X(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary3X(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributePrimary3X(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary3X(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributePrimary3Y(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary3Y(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributePrimary3Y(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary3Y(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributePrimary3Intensity(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary3Intensity(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributePrimary3Intensity(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary3Intensity(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributePrimary4X(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary4X(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributePrimary4X(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary4X(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributePrimary4Y(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary4Y(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributePrimary4Y(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary4Y(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributePrimary4Intensity(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary4Intensity(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributePrimary4Intensity(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary4Intensity(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributePrimary5X(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary5X(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributePrimary5X(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary5X(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributePrimary5Y(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary5Y(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributePrimary5Y(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary5Y(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributePrimary5Intensity(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary5Intensity(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributePrimary5Intensity(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary5Intensity(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributePrimary6X(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary6X(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributePrimary6X(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary6X(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributePrimary6Y(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary6Y(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributePrimary6Y(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary6Y(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributePrimary6Intensity(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary6Intensity(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributePrimary6Intensity(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary6Intensity(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeWhitePointX(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_WhitePointX(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeWhitePointX(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_WhitePointX(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeWhitePointY(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_WhitePointY(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeWhitePointY(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_WhitePointY(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeColorPointRX(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointRX(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeColorPointRX(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointRX(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeColorPointRY(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointRY(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeColorPointRY(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointRY(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeColorPointRIntensity(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointRIntensity(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeColorPointRIntensity(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointRIntensity(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeColorPointGX(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointGX(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeColorPointGX(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointGX(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeColorPointGY(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointGY(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeColorPointGY(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointGY(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeColorPointGIntensity(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointGIntensity(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeColorPointGIntensity(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointGIntensity(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeColorPointBX(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointBX(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeColorPointBX(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointBX(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeColorPointBY(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointBY(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeColorPointBY(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointBY(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeColorPointBIntensity(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointBIntensity(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeColorPointBIntensity(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointBIntensity(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeEnhancedCurrentHue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_EnhancedCurrentHue(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeEnhancedCurrentHue(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_EnhancedCurrentHue(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeEnhancedColorMode(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_EnhancedColorMode(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeEnhancedColorMode(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_EnhancedColorMode(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeColorLoopActive(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorLoopActive(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeColorLoopActive(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorLoopActive(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeColorLoopDirection(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorLoopDirection(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeColorLoopDirection(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorLoopDirection(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeColorLoopTime(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorLoopTime(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeColorLoopTime(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorLoopTime(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeColorLoopStartEnhancedHue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorLoopStartEnhancedHue(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeColorLoopStartEnhancedHue(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorLoopStartEnhancedHue(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeColorLoopStoredEnhancedHue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorLoopStoredEnhancedHue(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeColorLoopStoredEnhancedHue(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorLoopStoredEnhancedHue(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeColorCapabilities(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorCapabilities(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeColorCapabilities(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorCapabilities(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeColorTempPhysicalMin(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorTempPhysicalMin(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeColorTempPhysicalMin(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorTempPhysicalMin(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeColorTempPhysicalMax(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorTempPhysicalMax(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeColorTempPhysicalMax(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorTempPhysicalMax(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeCoupleColorTempToLevelMinMireds(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_CoupleColorTempToLevelMinMireds(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeCoupleColorTempToLevelMinMireds(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_CoupleColorTempToLevelMinMireds(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeStartUpColorTemperatureMireds(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_StartUpColorTemperatureMireds(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeStartUpColorTemperatureMireds(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_StartUpColorTemperatureMireds(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterColorControl_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ColorControl_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterColorControl_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterContentLauncher_ReadAttributeAcceptsHeaderList(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ContentLauncher_AcceptsHeaderList(device, ZCLendpoint, ZCLgroupid)
 
@@ -4914,6 +5638,9 @@ def ClusterContentLauncher_ReadAttributeSupportedStreamingTypes(self, device: ct
     def ClusterContentLauncher_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ContentLauncher_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterContentLauncher_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ContentLauncher_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterDescriptor_ReadAttributeDeviceList(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Descriptor_DeviceList(device, ZCLendpoint, ZCLgroupid)
 
@@ -4929,6 +5656,9 @@ def ClusterDescriptor_ReadAttributePartsList(self, device: ctypes.c_void_p, ZCLe
     def ClusterDescriptor_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Descriptor_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterDescriptor_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Descriptor_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterDoorLock_ReadAttributeLockState(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_DoorLock_LockState(device, ZCLendpoint, ZCLgroupid)
 
@@ -4938,123 +5668,234 @@ def ClusterDoorLock_SubscribeAttributeLockState(self, device: ctypes.c_void_p, Z
     def ClusterDoorLock_ReadAttributeLockType(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_DoorLock_LockType(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterDoorLock_SubscribeAttributeLockType(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_DoorLock_LockType(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterDoorLock_ReadAttributeActuatorEnabled(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_DoorLock_ActuatorEnabled(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterDoorLock_SubscribeAttributeActuatorEnabled(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_DoorLock_ActuatorEnabled(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterDoorLock_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_DoorLock_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterDoorLock_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_DoorLock_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterElectricalMeasurement_ReadAttributeMeasurementType(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_MeasurementType(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterElectricalMeasurement_SubscribeAttributeMeasurementType(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_MeasurementType(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterElectricalMeasurement_ReadAttributeTotalActivePower(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_TotalActivePower(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterElectricalMeasurement_SubscribeAttributeTotalActivePower(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_TotalActivePower(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterElectricalMeasurement_ReadAttributeRmsVoltage(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_RmsVoltage(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterElectricalMeasurement_SubscribeAttributeRmsVoltage(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsVoltage(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterElectricalMeasurement_ReadAttributeRmsVoltageMin(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_RmsVoltageMin(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterElectricalMeasurement_SubscribeAttributeRmsVoltageMin(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsVoltageMin(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterElectricalMeasurement_ReadAttributeRmsVoltageMax(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_RmsVoltageMax(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterElectricalMeasurement_SubscribeAttributeRmsVoltageMax(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsVoltageMax(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterElectricalMeasurement_ReadAttributeRmsCurrent(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_RmsCurrent(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterElectricalMeasurement_SubscribeAttributeRmsCurrent(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsCurrent(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterElectricalMeasurement_ReadAttributeRmsCurrentMin(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_RmsCurrentMin(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterElectricalMeasurement_SubscribeAttributeRmsCurrentMin(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsCurrentMin(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterElectricalMeasurement_ReadAttributeRmsCurrentMax(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_RmsCurrentMax(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterElectricalMeasurement_SubscribeAttributeRmsCurrentMax(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsCurrentMax(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterElectricalMeasurement_ReadAttributeActivePower(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_ActivePower(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterElectricalMeasurement_SubscribeAttributeActivePower(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_ActivePower(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterElectricalMeasurement_ReadAttributeActivePowerMin(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_ActivePowerMin(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterElectricalMeasurement_SubscribeAttributeActivePowerMin(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_ActivePowerMin(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterElectricalMeasurement_ReadAttributeActivePowerMax(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_ActivePowerMax(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterElectricalMeasurement_SubscribeAttributeActivePowerMax(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_ActivePowerMax(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterElectricalMeasurement_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterElectricalMeasurement_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterEthernetNetworkDiagnostics_ReadAttributePHYRate(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_PHYRate(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterEthernetNetworkDiagnostics_SubscribeAttributePHYRate(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_PHYRate(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterEthernetNetworkDiagnostics_ReadAttributeFullDuplex(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_FullDuplex(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterEthernetNetworkDiagnostics_SubscribeAttributeFullDuplex(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_FullDuplex(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterEthernetNetworkDiagnostics_ReadAttributePacketRxCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_PacketRxCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterEthernetNetworkDiagnostics_SubscribeAttributePacketRxCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_PacketRxCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterEthernetNetworkDiagnostics_ReadAttributePacketTxCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_PacketTxCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterEthernetNetworkDiagnostics_SubscribeAttributePacketTxCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_PacketTxCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterEthernetNetworkDiagnostics_ReadAttributeTxErrCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_TxErrCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterEthernetNetworkDiagnostics_SubscribeAttributeTxErrCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_TxErrCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterEthernetNetworkDiagnostics_ReadAttributeCollisionCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_CollisionCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterEthernetNetworkDiagnostics_SubscribeAttributeCollisionCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_CollisionCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterEthernetNetworkDiagnostics_ReadAttributeOverrunCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_OverrunCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterEthernetNetworkDiagnostics_SubscribeAttributeOverrunCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_OverrunCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterEthernetNetworkDiagnostics_ReadAttributeCarrierDetect(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_CarrierDetect(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterEthernetNetworkDiagnostics_SubscribeAttributeCarrierDetect(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_CarrierDetect(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterEthernetNetworkDiagnostics_ReadAttributeTimeSinceReset(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_TimeSinceReset(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterEthernetNetworkDiagnostics_SubscribeAttributeTimeSinceReset(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_TimeSinceReset(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterEthernetNetworkDiagnostics_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterEthernetNetworkDiagnostics_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterFixedLabel_ReadAttributeLabelList(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_FixedLabel_LabelList(device, ZCLendpoint, ZCLgroupid)
 
     def ClusterFixedLabel_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_FixedLabel_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterFixedLabel_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_FixedLabel_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterFlowMeasurement_ReadAttributeMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_FlowMeasurement_MeasuredValue(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterFlowMeasurement_SubscribeAttributeMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_FlowMeasurement_MeasuredValue(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterFlowMeasurement_ReadAttributeMinMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_FlowMeasurement_MinMeasuredValue(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterFlowMeasurement_SubscribeAttributeMinMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_FlowMeasurement_MinMeasuredValue(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterFlowMeasurement_ReadAttributeMaxMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_FlowMeasurement_MaxMeasuredValue(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterFlowMeasurement_SubscribeAttributeMaxMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_FlowMeasurement_MaxMeasuredValue(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterFlowMeasurement_ReadAttributeTolerance(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_FlowMeasurement_Tolerance(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterFlowMeasurement_SubscribeAttributeTolerance(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_FlowMeasurement_Tolerance(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterFlowMeasurement_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_FlowMeasurement_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterFlowMeasurement_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_FlowMeasurement_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterGeneralCommissioning_ReadAttributeBreadcrumb(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_GeneralCommissioning_Breadcrumb(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterGeneralCommissioning_SubscribeAttributeBreadcrumb(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_GeneralCommissioning_Breadcrumb(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterGeneralCommissioning_ReadAttributeBasicCommissioningInfoList(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_GeneralCommissioning_BasicCommissioningInfoList(device, ZCLendpoint, ZCLgroupid)
 
     def ClusterGeneralCommissioning_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_GeneralCommissioning_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterGeneralCommissioning_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_GeneralCommissioning_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterGeneralDiagnostics_ReadAttributeNetworkInterfaces(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_GeneralDiagnostics_NetworkInterfaces(device, ZCLendpoint, ZCLgroupid)
 
     def ClusterGeneralDiagnostics_ReadAttributeRebootCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_GeneralDiagnostics_RebootCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterGeneralDiagnostics_SubscribeAttributeRebootCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_GeneralDiagnostics_RebootCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterGeneralDiagnostics_ReadAttributeUpTime(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_GeneralDiagnostics_UpTime(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterGeneralDiagnostics_SubscribeAttributeUpTime(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_GeneralDiagnostics_UpTime(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterGeneralDiagnostics_ReadAttributeTotalOperationalHours(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_GeneralDiagnostics_TotalOperationalHours(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterGeneralDiagnostics_SubscribeAttributeTotalOperationalHours(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_GeneralDiagnostics_TotalOperationalHours(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterGeneralDiagnostics_ReadAttributeBootReasons(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_GeneralDiagnostics_BootReasons(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterGeneralDiagnostics_SubscribeAttributeBootReasons(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_GeneralDiagnostics_BootReasons(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterGeneralDiagnostics_ReadAttributeActiveHardwareFaults(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_GeneralDiagnostics_ActiveHardwareFaults(device, ZCLendpoint, ZCLgroupid)
 
@@ -5067,6 +5908,9 @@ def ClusterGeneralDiagnostics_ReadAttributeActiveNetworkFaults(self, device: cty
     def ClusterGeneralDiagnostics_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_GeneralDiagnostics_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterGeneralDiagnostics_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_GeneralDiagnostics_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterGroupKeyManagement_ReadAttributeGroups(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_GroupKeyManagement_Groups(device, ZCLendpoint, ZCLgroupid)
 
@@ -5076,21 +5920,39 @@ def ClusterGroupKeyManagement_ReadAttributeGroupKeys(self, device: ctypes.c_void
     def ClusterGroupKeyManagement_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_GroupKeyManagement_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterGroupKeyManagement_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_GroupKeyManagement_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterGroups_ReadAttributeNameSupport(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Groups_NameSupport(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterGroups_SubscribeAttributeNameSupport(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Groups_NameSupport(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterGroups_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Groups_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterGroups_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Groups_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterIdentify_ReadAttributeIdentifyTime(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Identify_IdentifyTime(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterIdentify_SubscribeAttributeIdentifyTime(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Identify_IdentifyTime(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterIdentify_ReadAttributeIdentifyType(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Identify_IdentifyType(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterIdentify_SubscribeAttributeIdentifyType(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Identify_IdentifyType(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterIdentify_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Identify_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterIdentify_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Identify_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterIlluminanceMeasurement_ReadAttributeMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_IlluminanceMeasurement_MeasuredValue(device, ZCLendpoint, ZCLgroupid)
 
@@ -5100,21 +5962,39 @@ def ClusterIlluminanceMeasurement_SubscribeAttributeMeasuredValue(self, device:
     def ClusterIlluminanceMeasurement_ReadAttributeMinMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_IlluminanceMeasurement_MinMeasuredValue(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterIlluminanceMeasurement_SubscribeAttributeMinMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_IlluminanceMeasurement_MinMeasuredValue(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterIlluminanceMeasurement_ReadAttributeMaxMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_IlluminanceMeasurement_MaxMeasuredValue(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterIlluminanceMeasurement_SubscribeAttributeMaxMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_IlluminanceMeasurement_MaxMeasuredValue(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterIlluminanceMeasurement_ReadAttributeTolerance(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_IlluminanceMeasurement_Tolerance(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterIlluminanceMeasurement_SubscribeAttributeTolerance(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_IlluminanceMeasurement_Tolerance(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterIlluminanceMeasurement_ReadAttributeLightSensorType(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_IlluminanceMeasurement_LightSensorType(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterIlluminanceMeasurement_SubscribeAttributeLightSensorType(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_IlluminanceMeasurement_LightSensorType(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterIlluminanceMeasurement_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_IlluminanceMeasurement_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterIlluminanceMeasurement_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_IlluminanceMeasurement_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterKeypadInput_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_KeypadInput_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterKeypadInput_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_KeypadInput_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterLevelControl_ReadAttributeCurrentLevel(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_LevelControl_CurrentLevel(device, ZCLendpoint, ZCLgroupid)
 
@@ -5124,84 +6004,162 @@ def ClusterLevelControl_SubscribeAttributeCurrentLevel(self, device: ctypes.c_vo
     def ClusterLevelControl_ReadAttributeRemainingTime(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_LevelControl_RemainingTime(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterLevelControl_SubscribeAttributeRemainingTime(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_LevelControl_RemainingTime(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterLevelControl_ReadAttributeMinLevel(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_LevelControl_MinLevel(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterLevelControl_SubscribeAttributeMinLevel(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_LevelControl_MinLevel(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterLevelControl_ReadAttributeMaxLevel(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_LevelControl_MaxLevel(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterLevelControl_SubscribeAttributeMaxLevel(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_LevelControl_MaxLevel(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterLevelControl_ReadAttributeCurrentFrequency(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_LevelControl_CurrentFrequency(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterLevelControl_SubscribeAttributeCurrentFrequency(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_LevelControl_CurrentFrequency(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterLevelControl_ReadAttributeMinFrequency(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_LevelControl_MinFrequency(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterLevelControl_SubscribeAttributeMinFrequency(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_LevelControl_MinFrequency(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterLevelControl_ReadAttributeMaxFrequency(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_LevelControl_MaxFrequency(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterLevelControl_SubscribeAttributeMaxFrequency(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_LevelControl_MaxFrequency(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterLevelControl_ReadAttributeOptions(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_LevelControl_Options(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterLevelControl_SubscribeAttributeOptions(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_LevelControl_Options(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterLevelControl_ReadAttributeOnOffTransitionTime(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_LevelControl_OnOffTransitionTime(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterLevelControl_SubscribeAttributeOnOffTransitionTime(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_LevelControl_OnOffTransitionTime(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterLevelControl_ReadAttributeOnLevel(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_LevelControl_OnLevel(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterLevelControl_SubscribeAttributeOnLevel(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_LevelControl_OnLevel(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterLevelControl_ReadAttributeOnTransitionTime(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_LevelControl_OnTransitionTime(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterLevelControl_SubscribeAttributeOnTransitionTime(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_LevelControl_OnTransitionTime(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterLevelControl_ReadAttributeOffTransitionTime(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_LevelControl_OffTransitionTime(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterLevelControl_SubscribeAttributeOffTransitionTime(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_LevelControl_OffTransitionTime(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterLevelControl_ReadAttributeDefaultMoveRate(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_LevelControl_DefaultMoveRate(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterLevelControl_SubscribeAttributeDefaultMoveRate(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_LevelControl_DefaultMoveRate(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterLevelControl_ReadAttributeStartUpCurrentLevel(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_LevelControl_StartUpCurrentLevel(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterLevelControl_SubscribeAttributeStartUpCurrentLevel(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_LevelControl_StartUpCurrentLevel(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterLevelControl_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_LevelControl_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterLevelControl_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_LevelControl_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterLowPower_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_LowPower_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterLowPower_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_LowPower_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterMediaInput_ReadAttributeMediaInputList(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_MediaInput_MediaInputList(device, ZCLendpoint, ZCLgroupid)
 
     def ClusterMediaInput_ReadAttributeCurrentMediaInput(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_MediaInput_CurrentMediaInput(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterMediaInput_SubscribeAttributeCurrentMediaInput(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_MediaInput_CurrentMediaInput(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterMediaInput_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_MediaInput_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterMediaInput_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_MediaInput_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterMediaPlayback_ReadAttributePlaybackState(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_MediaPlayback_PlaybackState(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterMediaPlayback_SubscribeAttributePlaybackState(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_PlaybackState(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterMediaPlayback_ReadAttributeStartTime(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_MediaPlayback_StartTime(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterMediaPlayback_SubscribeAttributeStartTime(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_StartTime(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterMediaPlayback_ReadAttributeDuration(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_MediaPlayback_Duration(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterMediaPlayback_SubscribeAttributeDuration(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_Duration(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterMediaPlayback_ReadAttributePositionUpdatedAt(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_MediaPlayback_PositionUpdatedAt(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterMediaPlayback_SubscribeAttributePositionUpdatedAt(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_PositionUpdatedAt(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterMediaPlayback_ReadAttributePosition(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_MediaPlayback_Position(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterMediaPlayback_SubscribeAttributePosition(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_Position(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterMediaPlayback_ReadAttributePlaybackSpeed(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_MediaPlayback_PlaybackSpeed(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterMediaPlayback_SubscribeAttributePlaybackSpeed(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_PlaybackSpeed(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterMediaPlayback_ReadAttributeSeekRangeEnd(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_MediaPlayback_SeekRangeEnd(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterMediaPlayback_SubscribeAttributeSeekRangeEnd(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_SeekRangeEnd(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterMediaPlayback_ReadAttributeSeekRangeStart(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_MediaPlayback_SeekRangeStart(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterMediaPlayback_SubscribeAttributeSeekRangeStart(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_SeekRangeStart(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterMediaPlayback_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_MediaPlayback_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterMediaPlayback_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterModeSelect_ReadAttributeCurrentMode(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ModeSelect_CurrentMode(device, ZCLendpoint, ZCLgroupid)
 
@@ -5214,33 +6172,63 @@ def ClusterModeSelect_ReadAttributeSupportedModes(self, device: ctypes.c_void_p,
     def ClusterModeSelect_ReadAttributeOnMode(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ModeSelect_OnMode(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterModeSelect_SubscribeAttributeOnMode(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ModeSelect_OnMode(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterModeSelect_ReadAttributeStartUpMode(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ModeSelect_StartUpMode(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterModeSelect_SubscribeAttributeStartUpMode(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ModeSelect_StartUpMode(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterModeSelect_ReadAttributeDescription(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ModeSelect_Description(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterModeSelect_SubscribeAttributeDescription(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ModeSelect_Description(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterModeSelect_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ModeSelect_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterModeSelect_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ModeSelect_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterNetworkCommissioning_ReadAttributeFeatureMap(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_NetworkCommissioning_FeatureMap(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterNetworkCommissioning_SubscribeAttributeFeatureMap(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_NetworkCommissioning_FeatureMap(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterNetworkCommissioning_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_NetworkCommissioning_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterNetworkCommissioning_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_NetworkCommissioning_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOtaSoftwareUpdateProvider_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OtaSoftwareUpdateProvider_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOtaSoftwareUpdateProvider_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OtaSoftwareUpdateProvider_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOtaSoftwareUpdateRequestor_ReadAttributeDefaultOtaProvider(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OtaSoftwareUpdateRequestor_DefaultOtaProvider(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOtaSoftwareUpdateRequestor_SubscribeAttributeDefaultOtaProvider(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OtaSoftwareUpdateRequestor_DefaultOtaProvider(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOtaSoftwareUpdateRequestor_ReadAttributeUpdatePossible(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OtaSoftwareUpdateRequestor_UpdatePossible(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOtaSoftwareUpdateRequestor_SubscribeAttributeUpdatePossible(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OtaSoftwareUpdateRequestor_UpdatePossible(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOtaSoftwareUpdateRequestor_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OtaSoftwareUpdateRequestor_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOtaSoftwareUpdateRequestor_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OtaSoftwareUpdateRequestor_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOccupancySensing_ReadAttributeOccupancy(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OccupancySensing_Occupancy(device, ZCLendpoint, ZCLgroupid)
 
@@ -5250,12 +6238,21 @@ def ClusterOccupancySensing_SubscribeAttributeOccupancy(self, device: ctypes.c_v
     def ClusterOccupancySensing_ReadAttributeOccupancySensorType(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OccupancySensing_OccupancySensorType(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOccupancySensing_SubscribeAttributeOccupancySensorType(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OccupancySensing_OccupancySensorType(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOccupancySensing_ReadAttributeOccupancySensorTypeBitmap(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OccupancySensing_OccupancySensorTypeBitmap(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOccupancySensing_SubscribeAttributeOccupancySensorTypeBitmap(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OccupancySensing_OccupancySensorTypeBitmap(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOccupancySensing_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OccupancySensing_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOccupancySensing_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OccupancySensing_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOnOff_ReadAttributeOnOff(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OnOff_OnOff(device, ZCLendpoint, ZCLgroupid)
 
@@ -5265,81 +6262,150 @@ def ClusterOnOff_SubscribeAttributeOnOff(self, device: ctypes.c_void_p, ZCLendpo
     def ClusterOnOff_ReadAttributeGlobalSceneControl(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OnOff_GlobalSceneControl(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOnOff_SubscribeAttributeGlobalSceneControl(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OnOff_GlobalSceneControl(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOnOff_ReadAttributeOnTime(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OnOff_OnTime(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOnOff_SubscribeAttributeOnTime(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OnOff_OnTime(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOnOff_ReadAttributeOffWaitTime(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OnOff_OffWaitTime(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOnOff_SubscribeAttributeOffWaitTime(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OnOff_OffWaitTime(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOnOff_ReadAttributeStartUpOnOff(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OnOff_StartUpOnOff(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOnOff_SubscribeAttributeStartUpOnOff(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OnOff_StartUpOnOff(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOnOff_ReadAttributeFeatureMap(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OnOff_FeatureMap(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOnOff_SubscribeAttributeFeatureMap(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OnOff_FeatureMap(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOnOff_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OnOff_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOnOff_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OnOff_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOnOffSwitchConfiguration_ReadAttributeSwitchType(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OnOffSwitchConfiguration_SwitchType(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOnOffSwitchConfiguration_SubscribeAttributeSwitchType(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OnOffSwitchConfiguration_SwitchType(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOnOffSwitchConfiguration_ReadAttributeSwitchActions(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OnOffSwitchConfiguration_SwitchActions(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOnOffSwitchConfiguration_SubscribeAttributeSwitchActions(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OnOffSwitchConfiguration_SwitchActions(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOnOffSwitchConfiguration_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OnOffSwitchConfiguration_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOnOffSwitchConfiguration_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OnOffSwitchConfiguration_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOperationalCredentials_ReadAttributeFabricsList(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OperationalCredentials_FabricsList(device, ZCLendpoint, ZCLgroupid)
 
     def ClusterOperationalCredentials_ReadAttributeSupportedFabrics(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OperationalCredentials_SupportedFabrics(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOperationalCredentials_SubscribeAttributeSupportedFabrics(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OperationalCredentials_SupportedFabrics(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOperationalCredentials_ReadAttributeCommissionedFabrics(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OperationalCredentials_CommissionedFabrics(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOperationalCredentials_SubscribeAttributeCommissionedFabrics(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OperationalCredentials_CommissionedFabrics(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOperationalCredentials_ReadAttributeTrustedRootCertificates(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OperationalCredentials_TrustedRootCertificates(device, ZCLendpoint, ZCLgroupid)
 
     def ClusterOperationalCredentials_ReadAttributeCurrentFabricIndex(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OperationalCredentials_CurrentFabricIndex(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOperationalCredentials_SubscribeAttributeCurrentFabricIndex(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OperationalCredentials_CurrentFabricIndex(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterOperationalCredentials_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_OperationalCredentials_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterOperationalCredentials_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_OperationalCredentials_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPowerSource_ReadAttributeStatus(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PowerSource_Status(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPowerSource_SubscribeAttributeStatus(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PowerSource_Status(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPowerSource_ReadAttributeOrder(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PowerSource_Order(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPowerSource_SubscribeAttributeOrder(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PowerSource_Order(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPowerSource_ReadAttributeDescription(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PowerSource_Description(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPowerSource_SubscribeAttributeDescription(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PowerSource_Description(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPowerSource_ReadAttributeBatteryVoltage(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PowerSource_BatteryVoltage(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPowerSource_SubscribeAttributeBatteryVoltage(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PowerSource_BatteryVoltage(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPowerSource_ReadAttributeBatteryPercentRemaining(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PowerSource_BatteryPercentRemaining(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPowerSource_SubscribeAttributeBatteryPercentRemaining(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PowerSource_BatteryPercentRemaining(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPowerSource_ReadAttributeBatteryTimeRemaining(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PowerSource_BatteryTimeRemaining(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPowerSource_SubscribeAttributeBatteryTimeRemaining(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PowerSource_BatteryTimeRemaining(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPowerSource_ReadAttributeBatteryChargeLevel(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PowerSource_BatteryChargeLevel(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPowerSource_SubscribeAttributeBatteryChargeLevel(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PowerSource_BatteryChargeLevel(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPowerSource_ReadAttributeActiveBatteryFaults(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PowerSource_ActiveBatteryFaults(device, ZCLendpoint, ZCLgroupid)
 
     def ClusterPowerSource_ReadAttributeBatteryChargeState(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PowerSource_BatteryChargeState(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPowerSource_SubscribeAttributeBatteryChargeState(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PowerSource_BatteryChargeState(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPowerSource_ReadAttributeFeatureMap(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PowerSource_FeatureMap(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPowerSource_SubscribeAttributeFeatureMap(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PowerSource_FeatureMap(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPowerSource_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PowerSource_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPowerSource_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PowerSource_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPressureMeasurement_ReadAttributeMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PressureMeasurement_MeasuredValue(device, ZCLendpoint, ZCLgroupid)
 
@@ -5349,51 +6415,99 @@ def ClusterPressureMeasurement_SubscribeAttributeMeasuredValue(self, device: cty
     def ClusterPressureMeasurement_ReadAttributeMinMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PressureMeasurement_MinMeasuredValue(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPressureMeasurement_SubscribeAttributeMinMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PressureMeasurement_MinMeasuredValue(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPressureMeasurement_ReadAttributeMaxMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PressureMeasurement_MaxMeasuredValue(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPressureMeasurement_SubscribeAttributeMaxMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PressureMeasurement_MaxMeasuredValue(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPressureMeasurement_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PressureMeasurement_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPressureMeasurement_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PressureMeasurement_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeMaxPressure(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxPressure(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeMaxPressure(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxPressure(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeMaxSpeed(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxSpeed(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeMaxSpeed(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxSpeed(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeMaxFlow(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxFlow(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeMaxFlow(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxFlow(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeMinConstPressure(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MinConstPressure(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeMinConstPressure(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinConstPressure(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeMaxConstPressure(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxConstPressure(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeMaxConstPressure(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxConstPressure(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeMinCompPressure(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MinCompPressure(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeMinCompPressure(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinCompPressure(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeMaxCompPressure(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxCompPressure(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeMaxCompPressure(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxCompPressure(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeMinConstSpeed(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MinConstSpeed(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeMinConstSpeed(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinConstSpeed(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeMaxConstSpeed(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxConstSpeed(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeMaxConstSpeed(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxConstSpeed(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeMinConstFlow(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MinConstFlow(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeMinConstFlow(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinConstFlow(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeMaxConstFlow(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxConstFlow(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeMaxConstFlow(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxConstFlow(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeMinConstTemp(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MinConstTemp(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeMinConstTemp(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinConstTemp(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeMaxConstTemp(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxConstTemp(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeMaxConstTemp(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxConstTemp(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributePumpStatus(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_PumpStatus(device, ZCLendpoint, ZCLgroupid)
 
@@ -5403,9 +6517,15 @@ def ClusterPumpConfigurationAndControl_SubscribeAttributePumpStatus(self, device
     def ClusterPumpConfigurationAndControl_ReadAttributeEffectiveOperationMode(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_EffectiveOperationMode(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeEffectiveOperationMode(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_EffectiveOperationMode(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeEffectiveControlMode(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_EffectiveControlMode(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeEffectiveControlMode(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_EffectiveControlMode(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeCapacity(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_Capacity(device, ZCLendpoint, ZCLgroupid)
 
@@ -5415,24 +6535,45 @@ def ClusterPumpConfigurationAndControl_SubscribeAttributeCapacity(self, device:
     def ClusterPumpConfigurationAndControl_ReadAttributeSpeed(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_Speed(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeSpeed(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_Speed(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeLifetimeEnergyConsumed(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_LifetimeEnergyConsumed(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeLifetimeEnergyConsumed(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_LifetimeEnergyConsumed(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeOperationMode(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_OperationMode(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeOperationMode(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_OperationMode(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeControlMode(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_ControlMode(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeControlMode(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_ControlMode(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeAlarmMask(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_AlarmMask(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeAlarmMask(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_AlarmMask(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeFeatureMap(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_FeatureMap(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeFeatureMap(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_FeatureMap(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterPumpConfigurationAndControl_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterPumpConfigurationAndControl_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterRelativeHumidityMeasurement_ReadAttributeMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_RelativeHumidityMeasurement_MeasuredValue(device, ZCLendpoint, ZCLgroupid)
 
@@ -5442,9 +6583,15 @@ def ClusterRelativeHumidityMeasurement_SubscribeAttributeMeasuredValue(self, dev
     def ClusterRelativeHumidityMeasurement_ReadAttributeMinMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_RelativeHumidityMeasurement_MinMeasuredValue(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterRelativeHumidityMeasurement_SubscribeAttributeMinMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_RelativeHumidityMeasurement_MinMeasuredValue(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterRelativeHumidityMeasurement_ReadAttributeMaxMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_RelativeHumidityMeasurement_MaxMeasuredValue(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterRelativeHumidityMeasurement_SubscribeAttributeMaxMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_RelativeHumidityMeasurement_MaxMeasuredValue(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterRelativeHumidityMeasurement_ReadAttributeTolerance(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_RelativeHumidityMeasurement_Tolerance(device, ZCLendpoint, ZCLgroupid)
 
@@ -5454,42 +6601,78 @@ def ClusterRelativeHumidityMeasurement_SubscribeAttributeTolerance(self, device:
     def ClusterRelativeHumidityMeasurement_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_RelativeHumidityMeasurement_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterRelativeHumidityMeasurement_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_RelativeHumidityMeasurement_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterScenes_ReadAttributeSceneCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Scenes_SceneCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterScenes_SubscribeAttributeSceneCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Scenes_SceneCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterScenes_ReadAttributeCurrentScene(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Scenes_CurrentScene(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterScenes_SubscribeAttributeCurrentScene(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Scenes_CurrentScene(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterScenes_ReadAttributeCurrentGroup(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Scenes_CurrentGroup(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterScenes_SubscribeAttributeCurrentGroup(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Scenes_CurrentGroup(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterScenes_ReadAttributeSceneValid(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Scenes_SceneValid(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterScenes_SubscribeAttributeSceneValid(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Scenes_SceneValid(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterScenes_ReadAttributeNameSupport(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Scenes_NameSupport(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterScenes_SubscribeAttributeNameSupport(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Scenes_NameSupport(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterScenes_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Scenes_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterScenes_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Scenes_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterSoftwareDiagnostics_ReadAttributeThreadMetrics(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_SoftwareDiagnostics_ThreadMetrics(device, ZCLendpoint, ZCLgroupid)
 
     def ClusterSoftwareDiagnostics_ReadAttributeCurrentHeapFree(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_SoftwareDiagnostics_CurrentHeapFree(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterSoftwareDiagnostics_SubscribeAttributeCurrentHeapFree(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_SoftwareDiagnostics_CurrentHeapFree(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterSoftwareDiagnostics_ReadAttributeCurrentHeapUsed(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_SoftwareDiagnostics_CurrentHeapUsed(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterSoftwareDiagnostics_SubscribeAttributeCurrentHeapUsed(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_SoftwareDiagnostics_CurrentHeapUsed(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterSoftwareDiagnostics_ReadAttributeCurrentHeapHighWatermark(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_SoftwareDiagnostics_CurrentHeapHighWatermark(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterSoftwareDiagnostics_SubscribeAttributeCurrentHeapHighWatermark(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_SoftwareDiagnostics_CurrentHeapHighWatermark(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterSoftwareDiagnostics_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_SoftwareDiagnostics_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterSoftwareDiagnostics_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_SoftwareDiagnostics_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterSwitch_ReadAttributeNumberOfPositions(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Switch_NumberOfPositions(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterSwitch_SubscribeAttributeNumberOfPositions(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Switch_NumberOfPositions(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterSwitch_ReadAttributeCurrentPosition(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Switch_CurrentPosition(device, ZCLendpoint, ZCLgroupid)
 
@@ -5499,30 +6682,51 @@ def ClusterSwitch_SubscribeAttributeCurrentPosition(self, device: ctypes.c_void_
     def ClusterSwitch_ReadAttributeMultiPressMax(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Switch_MultiPressMax(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterSwitch_SubscribeAttributeMultiPressMax(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Switch_MultiPressMax(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterSwitch_ReadAttributeFeatureMap(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Switch_FeatureMap(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterSwitch_SubscribeAttributeFeatureMap(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Switch_FeatureMap(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterSwitch_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Switch_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterSwitch_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Switch_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTvChannel_ReadAttributeTvChannelList(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TvChannel_TvChannelList(device, ZCLendpoint, ZCLgroupid)
 
     def ClusterTvChannel_ReadAttributeTvChannelLineup(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TvChannel_TvChannelLineup(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTvChannel_SubscribeAttributeTvChannelLineup(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TvChannel_TvChannelLineup(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTvChannel_ReadAttributeCurrentTvChannel(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TvChannel_CurrentTvChannel(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTvChannel_SubscribeAttributeCurrentTvChannel(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TvChannel_CurrentTvChannel(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTvChannel_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TvChannel_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTvChannel_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TvChannel_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTargetNavigator_ReadAttributeTargetNavigatorList(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TargetNavigator_TargetNavigatorList(device, ZCLendpoint, ZCLgroupid)
 
     def ClusterTargetNavigator_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TargetNavigator_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTargetNavigator_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TargetNavigator_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTemperatureMeasurement_ReadAttributeMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TemperatureMeasurement_MeasuredValue(device, ZCLendpoint, ZCLgroupid)
 
@@ -5532,9 +6736,15 @@ def ClusterTemperatureMeasurement_SubscribeAttributeMeasuredValue(self, device:
     def ClusterTemperatureMeasurement_ReadAttributeMinMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TemperatureMeasurement_MinMeasuredValue(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTemperatureMeasurement_SubscribeAttributeMinMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TemperatureMeasurement_MinMeasuredValue(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTemperatureMeasurement_ReadAttributeMaxMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TemperatureMeasurement_MaxMeasuredValue(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTemperatureMeasurement_SubscribeAttributeMaxMeasuredValue(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TemperatureMeasurement_MaxMeasuredValue(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTemperatureMeasurement_ReadAttributeTolerance(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TemperatureMeasurement_Tolerance(device, ZCLendpoint, ZCLgroupid)
 
@@ -5544,54 +6754,105 @@ def ClusterTemperatureMeasurement_SubscribeAttributeTolerance(self, device: ctyp
     def ClusterTemperatureMeasurement_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TemperatureMeasurement_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTemperatureMeasurement_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TemperatureMeasurement_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeBoolean(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_Boolean(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeBoolean(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Boolean(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeBitmap8(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_Bitmap8(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeBitmap8(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Bitmap8(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeBitmap16(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_Bitmap16(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeBitmap16(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Bitmap16(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeBitmap32(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_Bitmap32(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeBitmap32(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Bitmap32(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeBitmap64(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_Bitmap64(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeBitmap64(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Bitmap64(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeInt8u(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_Int8u(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeInt8u(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int8u(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeInt16u(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_Int16u(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeInt16u(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int16u(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeInt32u(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_Int32u(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeInt32u(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int32u(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeInt64u(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_Int64u(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeInt64u(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int64u(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeInt8s(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_Int8s(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeInt8s(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int8s(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeInt16s(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_Int16s(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeInt16s(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int16s(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeInt32s(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_Int32s(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeInt32s(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int32s(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeInt64s(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_Int64s(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeInt64s(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int64s(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeEnum8(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_Enum8(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeEnum8(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Enum8(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeEnum16(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_Enum16(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeEnum16(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Enum16(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeOctetString(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_OctetString(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeOctetString(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_OctetString(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeListInt8u(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_ListInt8u(device, ZCLendpoint, ZCLgroupid)
 
@@ -5604,81 +6865,156 @@ def ClusterTestCluster_ReadAttributeListStructOctetString(self, device: ctypes.c
     def ClusterTestCluster_ReadAttributeLongOctetString(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_LongOctetString(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeLongOctetString(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_LongOctetString(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeCharString(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_CharString(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeCharString(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_CharString(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeLongCharString(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_LongCharString(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeLongCharString(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_LongCharString(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeEpochUs(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_EpochUs(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeEpochUs(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_EpochUs(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeEpochS(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_EpochS(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeEpochS(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_EpochS(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeVendorId(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_VendorId(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeVendorId(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_VendorId(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeListNullablesAndOptionalsStruct(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_ListNullablesAndOptionalsStruct(device, ZCLendpoint, ZCLgroupid)
 
     def ClusterTestCluster_ReadAttributeUnsupported(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_Unsupported(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeUnsupported(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Unsupported(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeNullableBoolean(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableBoolean(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeNullableBoolean(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableBoolean(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeNullableBitmap8(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableBitmap8(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeNullableBitmap8(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableBitmap8(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeNullableBitmap16(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableBitmap16(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeNullableBitmap16(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableBitmap16(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeNullableBitmap32(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableBitmap32(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeNullableBitmap32(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableBitmap32(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeNullableBitmap64(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableBitmap64(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeNullableBitmap64(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableBitmap64(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeNullableInt8u(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt8u(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeNullableInt8u(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt8u(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeNullableInt16u(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt16u(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeNullableInt16u(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt16u(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeNullableInt32u(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt32u(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeNullableInt32u(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt32u(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeNullableInt64u(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt64u(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeNullableInt64u(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt64u(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeNullableInt8s(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt8s(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeNullableInt8s(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt8s(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeNullableInt16s(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt16s(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeNullableInt16s(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt16s(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeNullableInt32s(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt32s(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeNullableInt32s(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt32s(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeNullableInt64s(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt64s(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeNullableInt64s(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt64s(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeNullableEnum8(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableEnum8(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeNullableEnum8(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableEnum8(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeNullableEnum16(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableEnum16(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeNullableEnum16(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableEnum16(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeNullableOctetString(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableOctetString(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeNullableOctetString(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableOctetString(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeNullableCharString(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableCharString(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeNullableCharString(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableCharString(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterTestCluster_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_TestCluster_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterTestCluster_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_TestCluster_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostat_ReadAttributeLocalTemperature(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Thermostat_LocalTemperature(device, ZCLendpoint, ZCLgroupid)
 
@@ -5688,90 +7024,177 @@ def ClusterThermostat_SubscribeAttributeLocalTemperature(self, device: ctypes.c_
     def ClusterThermostat_ReadAttributeAbsMinHeatSetpointLimit(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Thermostat_AbsMinHeatSetpointLimit(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostat_SubscribeAttributeAbsMinHeatSetpointLimit(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Thermostat_AbsMinHeatSetpointLimit(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostat_ReadAttributeAbsMaxHeatSetpointLimit(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Thermostat_AbsMaxHeatSetpointLimit(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostat_SubscribeAttributeAbsMaxHeatSetpointLimit(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Thermostat_AbsMaxHeatSetpointLimit(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostat_ReadAttributeAbsMinCoolSetpointLimit(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Thermostat_AbsMinCoolSetpointLimit(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostat_SubscribeAttributeAbsMinCoolSetpointLimit(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Thermostat_AbsMinCoolSetpointLimit(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostat_ReadAttributeAbsMaxCoolSetpointLimit(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Thermostat_AbsMaxCoolSetpointLimit(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostat_SubscribeAttributeAbsMaxCoolSetpointLimit(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Thermostat_AbsMaxCoolSetpointLimit(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostat_ReadAttributeOccupiedCoolingSetpoint(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Thermostat_OccupiedCoolingSetpoint(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostat_SubscribeAttributeOccupiedCoolingSetpoint(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Thermostat_OccupiedCoolingSetpoint(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostat_ReadAttributeOccupiedHeatingSetpoint(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Thermostat_OccupiedHeatingSetpoint(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostat_SubscribeAttributeOccupiedHeatingSetpoint(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Thermostat_OccupiedHeatingSetpoint(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostat_ReadAttributeMinHeatSetpointLimit(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Thermostat_MinHeatSetpointLimit(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostat_SubscribeAttributeMinHeatSetpointLimit(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Thermostat_MinHeatSetpointLimit(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostat_ReadAttributeMaxHeatSetpointLimit(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Thermostat_MaxHeatSetpointLimit(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostat_SubscribeAttributeMaxHeatSetpointLimit(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Thermostat_MaxHeatSetpointLimit(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostat_ReadAttributeMinCoolSetpointLimit(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Thermostat_MinCoolSetpointLimit(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostat_SubscribeAttributeMinCoolSetpointLimit(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Thermostat_MinCoolSetpointLimit(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostat_ReadAttributeMaxCoolSetpointLimit(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Thermostat_MaxCoolSetpointLimit(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostat_SubscribeAttributeMaxCoolSetpointLimit(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Thermostat_MaxCoolSetpointLimit(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostat_ReadAttributeMinSetpointDeadBand(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Thermostat_MinSetpointDeadBand(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostat_SubscribeAttributeMinSetpointDeadBand(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Thermostat_MinSetpointDeadBand(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostat_ReadAttributeControlSequenceOfOperation(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Thermostat_ControlSequenceOfOperation(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostat_SubscribeAttributeControlSequenceOfOperation(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Thermostat_ControlSequenceOfOperation(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostat_ReadAttributeSystemMode(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Thermostat_SystemMode(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostat_SubscribeAttributeSystemMode(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Thermostat_SystemMode(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostat_ReadAttributeStartOfWeek(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Thermostat_StartOfWeek(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostat_SubscribeAttributeStartOfWeek(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Thermostat_StartOfWeek(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostat_ReadAttributeNumberOfWeeklyTransitions(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Thermostat_NumberOfWeeklyTransitions(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostat_SubscribeAttributeNumberOfWeeklyTransitions(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Thermostat_NumberOfWeeklyTransitions(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostat_ReadAttributeNumberOfDailyTransitions(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Thermostat_NumberOfDailyTransitions(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostat_SubscribeAttributeNumberOfDailyTransitions(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Thermostat_NumberOfDailyTransitions(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostat_ReadAttributeFeatureMap(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Thermostat_FeatureMap(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostat_SubscribeAttributeFeatureMap(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Thermostat_FeatureMap(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostat_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_Thermostat_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostat_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_Thermostat_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostatUserInterfaceConfiguration_ReadAttributeTemperatureDisplayMode(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThermostatUserInterfaceConfiguration_TemperatureDisplayMode(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostatUserInterfaceConfiguration_SubscribeAttributeTemperatureDisplayMode(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThermostatUserInterfaceConfiguration_TemperatureDisplayMode(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostatUserInterfaceConfiguration_ReadAttributeKeypadLockout(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThermostatUserInterfaceConfiguration_KeypadLockout(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostatUserInterfaceConfiguration_SubscribeAttributeKeypadLockout(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThermostatUserInterfaceConfiguration_KeypadLockout(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostatUserInterfaceConfiguration_ReadAttributeScheduleProgrammingVisibility(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThermostatUserInterfaceConfiguration_ScheduleProgrammingVisibility(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostatUserInterfaceConfiguration_SubscribeAttributeScheduleProgrammingVisibility(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThermostatUserInterfaceConfiguration_ScheduleProgrammingVisibility(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThermostatUserInterfaceConfiguration_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThermostatUserInterfaceConfiguration_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThermostatUserInterfaceConfiguration_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThermostatUserInterfaceConfiguration_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeChannel(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Channel(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeChannel(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_Channel(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeRoutingRole(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RoutingRole(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeRoutingRole(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RoutingRole(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeNetworkName(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_NetworkName(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeNetworkName(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_NetworkName(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributePanId(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_PanId(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributePanId(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_PanId(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeExtendedPanId(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ExtendedPanId(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeExtendedPanId(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ExtendedPanId(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeMeshLocalPrefix(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_MeshLocalPrefix(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeMeshLocalPrefix(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_MeshLocalPrefix(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeOverrunCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_OverrunCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeOverrunCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_OverrunCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeNeighborTableList(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_NeighborTableList(device, ZCLendpoint, ZCLgroupid)
 
@@ -5781,159 +7204,312 @@ def ClusterThreadNetworkDiagnostics_ReadAttributeRouteTableList(self, device: ct
     def ClusterThreadNetworkDiagnostics_ReadAttributePartitionId(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_PartitionId(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributePartitionId(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_PartitionId(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeWeighting(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Weighting(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeWeighting(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_Weighting(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeDataVersion(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_DataVersion(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeDataVersion(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_DataVersion(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeStableDataVersion(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_StableDataVersion(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeStableDataVersion(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_StableDataVersion(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeLeaderRouterId(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_LeaderRouterId(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeLeaderRouterId(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_LeaderRouterId(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeDetachedRoleCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_DetachedRoleCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeDetachedRoleCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_DetachedRoleCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeChildRoleCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ChildRoleCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeChildRoleCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ChildRoleCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeRouterRoleCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RouterRoleCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeRouterRoleCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RouterRoleCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeLeaderRoleCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_LeaderRoleCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeLeaderRoleCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_LeaderRoleCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeAttachAttemptCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_AttachAttemptCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeAttachAttemptCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_AttachAttemptCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributePartitionIdChangeCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_PartitionIdChangeCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributePartitionIdChangeCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_PartitionIdChangeCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeBetterPartitionAttachAttemptCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_BetterPartitionAttachAttemptCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeBetterPartitionAttachAttemptCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_BetterPartitionAttachAttemptCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeParentChangeCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ParentChangeCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeParentChangeCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ParentChangeCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeTxTotalCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxTotalCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeTxTotalCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxTotalCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeTxUnicastCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxUnicastCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeTxUnicastCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxUnicastCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeTxBroadcastCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxBroadcastCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeTxBroadcastCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxBroadcastCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeTxAckRequestedCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxAckRequestedCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeTxAckRequestedCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxAckRequestedCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeTxAckedCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxAckedCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeTxAckedCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxAckedCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeTxNoAckRequestedCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxNoAckRequestedCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeTxNoAckRequestedCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxNoAckRequestedCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeTxDataCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxDataCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeTxDataCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxDataCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeTxDataPollCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxDataPollCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeTxDataPollCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxDataPollCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeTxBeaconCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxBeaconCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeTxBeaconCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxBeaconCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeTxBeaconRequestCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxBeaconRequestCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeTxBeaconRequestCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxBeaconRequestCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeTxOtherCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxOtherCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeTxOtherCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxOtherCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeTxRetryCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxRetryCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeTxRetryCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxRetryCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeTxDirectMaxRetryExpiryCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxDirectMaxRetryExpiryCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeTxDirectMaxRetryExpiryCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxDirectMaxRetryExpiryCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeTxIndirectMaxRetryExpiryCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxIndirectMaxRetryExpiryCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeTxIndirectMaxRetryExpiryCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxIndirectMaxRetryExpiryCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeTxErrCcaCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxErrCcaCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeTxErrCcaCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxErrCcaCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeTxErrAbortCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxErrAbortCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeTxErrAbortCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxErrAbortCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeTxErrBusyChannelCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxErrBusyChannelCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeTxErrBusyChannelCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxErrBusyChannelCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeRxTotalCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxTotalCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeRxTotalCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxTotalCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeRxUnicastCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxUnicastCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeRxUnicastCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxUnicastCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeRxBroadcastCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxBroadcastCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeRxBroadcastCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxBroadcastCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeRxDataCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxDataCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeRxDataCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxDataCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeRxDataPollCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxDataPollCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeRxDataPollCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxDataPollCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeRxBeaconCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxBeaconCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeRxBeaconCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxBeaconCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeRxBeaconRequestCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxBeaconRequestCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeRxBeaconRequestCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxBeaconRequestCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeRxOtherCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxOtherCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeRxOtherCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxOtherCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeRxAddressFilteredCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxAddressFilteredCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeRxAddressFilteredCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxAddressFilteredCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeRxDestAddrFilteredCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxDestAddrFilteredCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeRxDestAddrFilteredCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxDestAddrFilteredCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeRxDuplicatedCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxDuplicatedCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeRxDuplicatedCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxDuplicatedCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeRxErrNoFrameCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrNoFrameCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeRxErrNoFrameCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrNoFrameCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeRxErrUnknownNeighborCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrUnknownNeighborCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeRxErrUnknownNeighborCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrUnknownNeighborCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeRxErrInvalidSrcAddrCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrInvalidSrcAddrCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeRxErrInvalidSrcAddrCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrInvalidSrcAddrCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeRxErrSecCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrSecCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeRxErrSecCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrSecCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeRxErrFcsCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrFcsCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeRxErrFcsCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrFcsCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeRxErrOtherCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrOtherCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeRxErrOtherCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrOtherCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeActiveTimestamp(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ActiveTimestamp(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeActiveTimestamp(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ActiveTimestamp(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributePendingTimestamp(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_PendingTimestamp(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributePendingTimestamp(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_PendingTimestamp(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeDelay(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Delay(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeDelay(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_Delay(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeSecurityPolicy(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_SecurityPolicy(device, ZCLendpoint, ZCLgroupid)
 
     def ClusterThreadNetworkDiagnostics_ReadAttributeChannelMask(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ChannelMask(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeChannelMask(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ChannelMask(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterThreadNetworkDiagnostics_ReadAttributeOperationalDatasetComponents(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_OperationalDatasetComponents(device, ZCLendpoint, ZCLgroupid)
 
@@ -5943,66 +7519,129 @@ def ClusterThreadNetworkDiagnostics_ReadAttributeActiveNetworkFaultsList(self, d
     def ClusterThreadNetworkDiagnostics_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterThreadNetworkDiagnostics_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWakeOnLan_ReadAttributeWakeOnLanMacAddress(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WakeOnLan_WakeOnLanMacAddress(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWakeOnLan_SubscribeAttributeWakeOnLanMacAddress(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WakeOnLan_WakeOnLanMacAddress(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWakeOnLan_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WakeOnLan_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWakeOnLan_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WakeOnLan_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWiFiNetworkDiagnostics_ReadAttributeBssid(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Bssid(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWiFiNetworkDiagnostics_SubscribeAttributeBssid(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_Bssid(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWiFiNetworkDiagnostics_ReadAttributeSecurityType(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_SecurityType(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWiFiNetworkDiagnostics_SubscribeAttributeSecurityType(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_SecurityType(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWiFiNetworkDiagnostics_ReadAttributeWiFiVersion(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_WiFiVersion(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWiFiNetworkDiagnostics_SubscribeAttributeWiFiVersion(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_WiFiVersion(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWiFiNetworkDiagnostics_ReadAttributeChannelNumber(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_ChannelNumber(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWiFiNetworkDiagnostics_SubscribeAttributeChannelNumber(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_ChannelNumber(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWiFiNetworkDiagnostics_ReadAttributeRssi(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Rssi(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWiFiNetworkDiagnostics_SubscribeAttributeRssi(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_Rssi(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWiFiNetworkDiagnostics_ReadAttributeBeaconLostCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_BeaconLostCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWiFiNetworkDiagnostics_SubscribeAttributeBeaconLostCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_BeaconLostCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWiFiNetworkDiagnostics_ReadAttributeBeaconRxCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_BeaconRxCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWiFiNetworkDiagnostics_SubscribeAttributeBeaconRxCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_BeaconRxCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWiFiNetworkDiagnostics_ReadAttributePacketMulticastRxCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_PacketMulticastRxCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWiFiNetworkDiagnostics_SubscribeAttributePacketMulticastRxCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_PacketMulticastRxCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWiFiNetworkDiagnostics_ReadAttributePacketMulticastTxCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_PacketMulticastTxCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWiFiNetworkDiagnostics_SubscribeAttributePacketMulticastTxCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_PacketMulticastTxCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWiFiNetworkDiagnostics_ReadAttributePacketUnicastRxCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_PacketUnicastRxCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWiFiNetworkDiagnostics_SubscribeAttributePacketUnicastRxCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_PacketUnicastRxCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWiFiNetworkDiagnostics_ReadAttributePacketUnicastTxCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_PacketUnicastTxCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWiFiNetworkDiagnostics_SubscribeAttributePacketUnicastTxCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_PacketUnicastTxCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWiFiNetworkDiagnostics_ReadAttributeCurrentMaxRate(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_CurrentMaxRate(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWiFiNetworkDiagnostics_SubscribeAttributeCurrentMaxRate(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_CurrentMaxRate(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWiFiNetworkDiagnostics_ReadAttributeOverrunCount(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_OverrunCount(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWiFiNetworkDiagnostics_SubscribeAttributeOverrunCount(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_OverrunCount(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWiFiNetworkDiagnostics_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWiFiNetworkDiagnostics_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWindowCovering_ReadAttributeType(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WindowCovering_Type(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWindowCovering_SubscribeAttributeType(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_Type(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWindowCovering_ReadAttributeCurrentPositionLift(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WindowCovering_CurrentPositionLift(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWindowCovering_SubscribeAttributeCurrentPositionLift(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_CurrentPositionLift(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWindowCovering_ReadAttributeCurrentPositionTilt(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WindowCovering_CurrentPositionTilt(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWindowCovering_SubscribeAttributeCurrentPositionTilt(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_CurrentPositionTilt(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWindowCovering_ReadAttributeConfigStatus(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WindowCovering_ConfigStatus(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWindowCovering_SubscribeAttributeConfigStatus(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_ConfigStatus(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWindowCovering_ReadAttributeCurrentPositionLiftPercentage(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WindowCovering_CurrentPositionLiftPercentage(device, ZCLendpoint, ZCLgroupid)
 
@@ -6036,6 +7675,9 @@ def ClusterWindowCovering_SubscribeAttributeTargetPositionTiltPercent100ths(self
     def ClusterWindowCovering_ReadAttributeEndProductType(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WindowCovering_EndProductType(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWindowCovering_SubscribeAttributeEndProductType(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_EndProductType(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWindowCovering_ReadAttributeCurrentPositionLiftPercent100ths(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WindowCovering_CurrentPositionLiftPercent100ths(device, ZCLendpoint, ZCLgroupid)
 
@@ -6051,18 +7693,33 @@ def ClusterWindowCovering_SubscribeAttributeCurrentPositionTiltPercent100ths(sel
     def ClusterWindowCovering_ReadAttributeInstalledOpenLimitLift(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WindowCovering_InstalledOpenLimitLift(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWindowCovering_SubscribeAttributeInstalledOpenLimitLift(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_InstalledOpenLimitLift(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWindowCovering_ReadAttributeInstalledClosedLimitLift(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WindowCovering_InstalledClosedLimitLift(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWindowCovering_SubscribeAttributeInstalledClosedLimitLift(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_InstalledClosedLimitLift(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWindowCovering_ReadAttributeInstalledOpenLimitTilt(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WindowCovering_InstalledOpenLimitTilt(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWindowCovering_SubscribeAttributeInstalledOpenLimitTilt(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_InstalledOpenLimitTilt(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWindowCovering_ReadAttributeInstalledClosedLimitTilt(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WindowCovering_InstalledClosedLimitTilt(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWindowCovering_SubscribeAttributeInstalledClosedLimitTilt(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_InstalledClosedLimitTilt(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWindowCovering_ReadAttributeMode(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WindowCovering_Mode(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWindowCovering_SubscribeAttributeMode(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_Mode(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWindowCovering_ReadAttributeSafetyStatus(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WindowCovering_SafetyStatus(device, ZCLendpoint, ZCLgroupid)
 
@@ -6072,9 +7729,15 @@ def ClusterWindowCovering_SubscribeAttributeSafetyStatus(self, device: ctypes.c_
     def ClusterWindowCovering_ReadAttributeFeatureMap(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WindowCovering_FeatureMap(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWindowCovering_SubscribeAttributeFeatureMap(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_FeatureMap(device, ZCLendpoint, minInterval, maxInterval)
+
     def ClusterWindowCovering_ReadAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_WindowCovering_ClusterRevision(device, ZCLendpoint, ZCLgroupid)
 
+    def ClusterWindowCovering_SubscribeAttributeClusterRevision(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
+        return self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_ClusterRevision(device, ZCLendpoint, minInterval, maxInterval)
+
     # Init native functions
 
     def InitLib(self, chipLib):
@@ -6091,44 +7754,84 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_AccountLogin_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_AccountLogin_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster AccountLogin SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_AccountLogin_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_AccountLogin_ClusterRevision.restype = ctypes.c_uint32
         # Cluster AdministratorCommissioning
         # Cluster AdministratorCommissioning ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_AdministratorCommissioning_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_AdministratorCommissioning_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster AdministratorCommissioning SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_AdministratorCommissioning_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_AdministratorCommissioning_ClusterRevision.restype = ctypes.c_uint32
         # Cluster ApplicationBasic
         # Cluster ApplicationBasic ReadAttribute VendorName
         self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_VendorName.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_VendorName.restype = ctypes.c_uint32
+        # Cluster ApplicationBasic SubscribeAttribute VendorName
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_VendorName.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_VendorName.restype = ctypes.c_uint32
         # Cluster ApplicationBasic ReadAttribute VendorId
         self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_VendorId.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_VendorId.restype = ctypes.c_uint32
+        # Cluster ApplicationBasic SubscribeAttribute VendorId
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_VendorId.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_VendorId.restype = ctypes.c_uint32
         # Cluster ApplicationBasic ReadAttribute ApplicationName
         self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_ApplicationName.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_ApplicationName.restype = ctypes.c_uint32
+        # Cluster ApplicationBasic SubscribeAttribute ApplicationName
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_ApplicationName.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_ApplicationName.restype = ctypes.c_uint32
         # Cluster ApplicationBasic ReadAttribute ProductId
         self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_ProductId.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_ProductId.restype = ctypes.c_uint32
+        # Cluster ApplicationBasic SubscribeAttribute ProductId
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_ProductId.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_ProductId.restype = ctypes.c_uint32
         # Cluster ApplicationBasic ReadAttribute ApplicationId
         self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_ApplicationId.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_ApplicationId.restype = ctypes.c_uint32
+        # Cluster ApplicationBasic SubscribeAttribute ApplicationId
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_ApplicationId.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_ApplicationId.restype = ctypes.c_uint32
         # Cluster ApplicationBasic ReadAttribute CatalogVendorId
         self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_CatalogVendorId.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_CatalogVendorId.restype = ctypes.c_uint32
+        # Cluster ApplicationBasic SubscribeAttribute CatalogVendorId
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_CatalogVendorId.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_CatalogVendorId.restype = ctypes.c_uint32
         # Cluster ApplicationBasic ReadAttribute ApplicationStatus
         self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_ApplicationStatus.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_ApplicationStatus.restype = ctypes.c_uint32
+        # Cluster ApplicationBasic SubscribeAttribute ApplicationStatus
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_ApplicationStatus.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_ApplicationStatus.restype = ctypes.c_uint32
         # Cluster ApplicationBasic ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ApplicationBasic_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster ApplicationBasic SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationBasic_ClusterRevision.restype = ctypes.c_uint32
         # Cluster ApplicationLauncher
         # Cluster ApplicationLauncher ReadAttribute ApplicationLauncherList
         self._chipLib.chip_ime_ReadAttribute_ApplicationLauncher_ApplicationLauncherList.argtypes = [
@@ -6138,14 +7841,26 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_ApplicationLauncher_CatalogVendorId.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ApplicationLauncher_CatalogVendorId.restype = ctypes.c_uint32
+        # Cluster ApplicationLauncher SubscribeAttribute CatalogVendorId
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationLauncher_CatalogVendorId.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationLauncher_CatalogVendorId.restype = ctypes.c_uint32
         # Cluster ApplicationLauncher ReadAttribute ApplicationId
         self._chipLib.chip_ime_ReadAttribute_ApplicationLauncher_ApplicationId.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ApplicationLauncher_ApplicationId.restype = ctypes.c_uint32
+        # Cluster ApplicationLauncher SubscribeAttribute ApplicationId
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationLauncher_ApplicationId.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationLauncher_ApplicationId.restype = ctypes.c_uint32
         # Cluster ApplicationLauncher ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_ApplicationLauncher_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ApplicationLauncher_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster ApplicationLauncher SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationLauncher_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ApplicationLauncher_ClusterRevision.restype = ctypes.c_uint32
         # Cluster AudioOutput
         # Cluster AudioOutput ReadAttribute AudioOutputList
         self._chipLib.chip_ime_ReadAttribute_AudioOutput_AudioOutputList.argtypes = [
@@ -6155,113 +7870,221 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_AudioOutput_CurrentAudioOutput.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_AudioOutput_CurrentAudioOutput.restype = ctypes.c_uint32
+        # Cluster AudioOutput SubscribeAttribute CurrentAudioOutput
+        self._chipLib.chip_ime_SubscribeAttribute_AudioOutput_CurrentAudioOutput.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_AudioOutput_CurrentAudioOutput.restype = ctypes.c_uint32
         # Cluster AudioOutput ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_AudioOutput_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_AudioOutput_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster AudioOutput SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_AudioOutput_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_AudioOutput_ClusterRevision.restype = ctypes.c_uint32
         # Cluster BarrierControl
         # Cluster BarrierControl ReadAttribute BarrierMovingState
         self._chipLib.chip_ime_ReadAttribute_BarrierControl_BarrierMovingState.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_BarrierControl_BarrierMovingState.restype = ctypes.c_uint32
+        # Cluster BarrierControl SubscribeAttribute BarrierMovingState
+        self._chipLib.chip_ime_SubscribeAttribute_BarrierControl_BarrierMovingState.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_BarrierControl_BarrierMovingState.restype = ctypes.c_uint32
         # Cluster BarrierControl ReadAttribute BarrierSafetyStatus
         self._chipLib.chip_ime_ReadAttribute_BarrierControl_BarrierSafetyStatus.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_BarrierControl_BarrierSafetyStatus.restype = ctypes.c_uint32
+        # Cluster BarrierControl SubscribeAttribute BarrierSafetyStatus
+        self._chipLib.chip_ime_SubscribeAttribute_BarrierControl_BarrierSafetyStatus.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_BarrierControl_BarrierSafetyStatus.restype = ctypes.c_uint32
         # Cluster BarrierControl ReadAttribute BarrierCapabilities
         self._chipLib.chip_ime_ReadAttribute_BarrierControl_BarrierCapabilities.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_BarrierControl_BarrierCapabilities.restype = ctypes.c_uint32
+        # Cluster BarrierControl SubscribeAttribute BarrierCapabilities
+        self._chipLib.chip_ime_SubscribeAttribute_BarrierControl_BarrierCapabilities.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_BarrierControl_BarrierCapabilities.restype = ctypes.c_uint32
         # Cluster BarrierControl ReadAttribute BarrierPosition
         self._chipLib.chip_ime_ReadAttribute_BarrierControl_BarrierPosition.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_BarrierControl_BarrierPosition.restype = ctypes.c_uint32
+        # Cluster BarrierControl SubscribeAttribute BarrierPosition
+        self._chipLib.chip_ime_SubscribeAttribute_BarrierControl_BarrierPosition.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_BarrierControl_BarrierPosition.restype = ctypes.c_uint32
         # Cluster BarrierControl ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_BarrierControl_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_BarrierControl_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster BarrierControl SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_BarrierControl_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_BarrierControl_ClusterRevision.restype = ctypes.c_uint32
         # Cluster Basic
         # Cluster Basic ReadAttribute InteractionModelVersion
         self._chipLib.chip_ime_ReadAttribute_Basic_InteractionModelVersion.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Basic_InteractionModelVersion.restype = ctypes.c_uint32
+        # Cluster Basic SubscribeAttribute InteractionModelVersion
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_InteractionModelVersion.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_InteractionModelVersion.restype = ctypes.c_uint32
         # Cluster Basic ReadAttribute VendorName
         self._chipLib.chip_ime_ReadAttribute_Basic_VendorName.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Basic_VendorName.restype = ctypes.c_uint32
+        # Cluster Basic SubscribeAttribute VendorName
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_VendorName.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_VendorName.restype = ctypes.c_uint32
         # Cluster Basic ReadAttribute VendorID
         self._chipLib.chip_ime_ReadAttribute_Basic_VendorID.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Basic_VendorID.restype = ctypes.c_uint32
+        # Cluster Basic SubscribeAttribute VendorID
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_VendorID.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_VendorID.restype = ctypes.c_uint32
         # Cluster Basic ReadAttribute ProductName
         self._chipLib.chip_ime_ReadAttribute_Basic_ProductName.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Basic_ProductName.restype = ctypes.c_uint32
+        # Cluster Basic SubscribeAttribute ProductName
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_ProductName.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_ProductName.restype = ctypes.c_uint32
         # Cluster Basic ReadAttribute ProductID
         self._chipLib.chip_ime_ReadAttribute_Basic_ProductID.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Basic_ProductID.restype = ctypes.c_uint32
+        # Cluster Basic SubscribeAttribute ProductID
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_ProductID.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_ProductID.restype = ctypes.c_uint32
         # Cluster Basic ReadAttribute UserLabel
         self._chipLib.chip_ime_ReadAttribute_Basic_UserLabel.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Basic_UserLabel.restype = ctypes.c_uint32
+        # Cluster Basic SubscribeAttribute UserLabel
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_UserLabel.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_UserLabel.restype = ctypes.c_uint32
         # Cluster Basic ReadAttribute Location
         self._chipLib.chip_ime_ReadAttribute_Basic_Location.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Basic_Location.restype = ctypes.c_uint32
+        # Cluster Basic SubscribeAttribute Location
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_Location.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_Location.restype = ctypes.c_uint32
         # Cluster Basic ReadAttribute HardwareVersion
         self._chipLib.chip_ime_ReadAttribute_Basic_HardwareVersion.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Basic_HardwareVersion.restype = ctypes.c_uint32
+        # Cluster Basic SubscribeAttribute HardwareVersion
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_HardwareVersion.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_HardwareVersion.restype = ctypes.c_uint32
         # Cluster Basic ReadAttribute HardwareVersionString
         self._chipLib.chip_ime_ReadAttribute_Basic_HardwareVersionString.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Basic_HardwareVersionString.restype = ctypes.c_uint32
+        # Cluster Basic SubscribeAttribute HardwareVersionString
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_HardwareVersionString.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_HardwareVersionString.restype = ctypes.c_uint32
         # Cluster Basic ReadAttribute SoftwareVersion
         self._chipLib.chip_ime_ReadAttribute_Basic_SoftwareVersion.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Basic_SoftwareVersion.restype = ctypes.c_uint32
+        # Cluster Basic SubscribeAttribute SoftwareVersion
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_SoftwareVersion.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_SoftwareVersion.restype = ctypes.c_uint32
         # Cluster Basic ReadAttribute SoftwareVersionString
         self._chipLib.chip_ime_ReadAttribute_Basic_SoftwareVersionString.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Basic_SoftwareVersionString.restype = ctypes.c_uint32
+        # Cluster Basic SubscribeAttribute SoftwareVersionString
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_SoftwareVersionString.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_SoftwareVersionString.restype = ctypes.c_uint32
         # Cluster Basic ReadAttribute ManufacturingDate
         self._chipLib.chip_ime_ReadAttribute_Basic_ManufacturingDate.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Basic_ManufacturingDate.restype = ctypes.c_uint32
+        # Cluster Basic SubscribeAttribute ManufacturingDate
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_ManufacturingDate.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_ManufacturingDate.restype = ctypes.c_uint32
         # Cluster Basic ReadAttribute PartNumber
         self._chipLib.chip_ime_ReadAttribute_Basic_PartNumber.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Basic_PartNumber.restype = ctypes.c_uint32
+        # Cluster Basic SubscribeAttribute PartNumber
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_PartNumber.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_PartNumber.restype = ctypes.c_uint32
         # Cluster Basic ReadAttribute ProductURL
         self._chipLib.chip_ime_ReadAttribute_Basic_ProductURL.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Basic_ProductURL.restype = ctypes.c_uint32
+        # Cluster Basic SubscribeAttribute ProductURL
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_ProductURL.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_ProductURL.restype = ctypes.c_uint32
         # Cluster Basic ReadAttribute ProductLabel
         self._chipLib.chip_ime_ReadAttribute_Basic_ProductLabel.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Basic_ProductLabel.restype = ctypes.c_uint32
+        # Cluster Basic SubscribeAttribute ProductLabel
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_ProductLabel.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_ProductLabel.restype = ctypes.c_uint32
         # Cluster Basic ReadAttribute SerialNumber
         self._chipLib.chip_ime_ReadAttribute_Basic_SerialNumber.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Basic_SerialNumber.restype = ctypes.c_uint32
+        # Cluster Basic SubscribeAttribute SerialNumber
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_SerialNumber.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_SerialNumber.restype = ctypes.c_uint32
         # Cluster Basic ReadAttribute LocalConfigDisabled
         self._chipLib.chip_ime_ReadAttribute_Basic_LocalConfigDisabled.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Basic_LocalConfigDisabled.restype = ctypes.c_uint32
+        # Cluster Basic SubscribeAttribute LocalConfigDisabled
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_LocalConfigDisabled.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_LocalConfigDisabled.restype = ctypes.c_uint32
         # Cluster Basic ReadAttribute Reachable
         self._chipLib.chip_ime_ReadAttribute_Basic_Reachable.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Basic_Reachable.restype = ctypes.c_uint32
+        # Cluster Basic SubscribeAttribute Reachable
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_Reachable.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_Reachable.restype = ctypes.c_uint32
         # Cluster Basic ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_Basic_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Basic_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster Basic SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Basic_ClusterRevision.restype = ctypes.c_uint32
         # Cluster BinaryInputBasic
         # Cluster BinaryInputBasic ReadAttribute OutOfService
         self._chipLib.chip_ime_ReadAttribute_BinaryInputBasic_OutOfService.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_BinaryInputBasic_OutOfService.restype = ctypes.c_uint32
+        # Cluster BinaryInputBasic SubscribeAttribute OutOfService
+        self._chipLib.chip_ime_SubscribeAttribute_BinaryInputBasic_OutOfService.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_BinaryInputBasic_OutOfService.restype = ctypes.c_uint32
         # Cluster BinaryInputBasic ReadAttribute PresentValue
         self._chipLib.chip_ime_ReadAttribute_BinaryInputBasic_PresentValue.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -6282,11 +8105,19 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_BinaryInputBasic_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_BinaryInputBasic_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster BinaryInputBasic SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_BinaryInputBasic_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_BinaryInputBasic_ClusterRevision.restype = ctypes.c_uint32
         # Cluster Binding
         # Cluster Binding ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_Binding_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Binding_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster Binding SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_Binding_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Binding_ClusterRevision.restype = ctypes.c_uint32
         # Cluster BooleanState
         # Cluster BooleanState ReadAttribute StateValue
         self._chipLib.chip_ime_ReadAttribute_BooleanState_StateValue.argtypes = [
@@ -6300,6 +8131,10 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_BooleanState_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_BooleanState_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster BooleanState SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_BooleanState_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_BooleanState_ClusterRevision.restype = ctypes.c_uint32
         # Cluster BridgedActions
         # Cluster BridgedActions ReadAttribute ActionList
         self._chipLib.chip_ime_ReadAttribute_BridgedActions_ActionList.argtypes = [
@@ -6313,15 +8148,27 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_BridgedActions_SetupUrl.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_BridgedActions_SetupUrl.restype = ctypes.c_uint32
+        # Cluster BridgedActions SubscribeAttribute SetupUrl
+        self._chipLib.chip_ime_SubscribeAttribute_BridgedActions_SetupUrl.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_BridgedActions_SetupUrl.restype = ctypes.c_uint32
         # Cluster BridgedActions ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_BridgedActions_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_BridgedActions_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster BridgedActions SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_BridgedActions_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_BridgedActions_ClusterRevision.restype = ctypes.c_uint32
         # Cluster BridgedDeviceBasicInformation
         # Cluster BridgedDeviceBasicInformation ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_BridgedDeviceBasicInformation_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_BridgedDeviceBasicInformation_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster BridgedDeviceBasicInformation SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_BridgedDeviceBasicInformation_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_BridgedDeviceBasicInformation_ClusterRevision.restype = ctypes.c_uint32
         # Cluster ColorControl
         # Cluster ColorControl ReadAttribute CurrentHue
         self._chipLib.chip_ime_ReadAttribute_ColorControl_CurrentHue.argtypes = [
@@ -6343,6 +8190,10 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_ColorControl_RemainingTime.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_RemainingTime.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute RemainingTime
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_RemainingTime.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_RemainingTime.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute CurrentX
         self._chipLib.chip_ime_ReadAttribute_ColorControl_CurrentX.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -6363,10 +8214,18 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_ColorControl_DriftCompensation.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_DriftCompensation.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute DriftCompensation
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_DriftCompensation.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_DriftCompensation.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute CompensationText
         self._chipLib.chip_ime_ReadAttribute_ColorControl_CompensationText.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_CompensationText.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute CompensationText
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_CompensationText.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_CompensationText.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ColorTemperature
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorTemperature.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -6379,182 +8238,362 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorMode.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorMode.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ColorMode
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorMode.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorMode.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ColorControlOptions
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorControlOptions.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorControlOptions.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ColorControlOptions
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorControlOptions.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorControlOptions.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute NumberOfPrimaries
         self._chipLib.chip_ime_ReadAttribute_ColorControl_NumberOfPrimaries.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_NumberOfPrimaries.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute NumberOfPrimaries
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_NumberOfPrimaries.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_NumberOfPrimaries.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute Primary1X
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary1X.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary1X.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute Primary1X
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary1X.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary1X.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute Primary1Y
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary1Y.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary1Y.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute Primary1Y
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary1Y.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary1Y.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute Primary1Intensity
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary1Intensity.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary1Intensity.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute Primary1Intensity
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary1Intensity.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary1Intensity.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute Primary2X
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary2X.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary2X.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute Primary2X
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary2X.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary2X.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute Primary2Y
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary2Y.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary2Y.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute Primary2Y
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary2Y.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary2Y.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute Primary2Intensity
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary2Intensity.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary2Intensity.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute Primary2Intensity
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary2Intensity.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary2Intensity.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute Primary3X
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary3X.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary3X.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute Primary3X
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary3X.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary3X.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute Primary3Y
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary3Y.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary3Y.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute Primary3Y
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary3Y.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary3Y.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute Primary3Intensity
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary3Intensity.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary3Intensity.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute Primary3Intensity
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary3Intensity.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary3Intensity.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute Primary4X
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary4X.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary4X.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute Primary4X
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary4X.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary4X.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute Primary4Y
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary4Y.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary4Y.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute Primary4Y
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary4Y.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary4Y.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute Primary4Intensity
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary4Intensity.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary4Intensity.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute Primary4Intensity
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary4Intensity.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary4Intensity.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute Primary5X
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary5X.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary5X.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute Primary5X
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary5X.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary5X.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute Primary5Y
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary5Y.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary5Y.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute Primary5Y
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary5Y.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary5Y.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute Primary5Intensity
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary5Intensity.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary5Intensity.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute Primary5Intensity
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary5Intensity.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary5Intensity.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute Primary6X
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary6X.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary6X.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute Primary6X
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary6X.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary6X.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute Primary6Y
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary6Y.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary6Y.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute Primary6Y
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary6Y.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary6Y.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute Primary6Intensity
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary6Intensity.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_Primary6Intensity.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute Primary6Intensity
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary6Intensity.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_Primary6Intensity.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute WhitePointX
         self._chipLib.chip_ime_ReadAttribute_ColorControl_WhitePointX.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_WhitePointX.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute WhitePointX
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_WhitePointX.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_WhitePointX.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute WhitePointY
         self._chipLib.chip_ime_ReadAttribute_ColorControl_WhitePointY.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_WhitePointY.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute WhitePointY
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_WhitePointY.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_WhitePointY.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ColorPointRX
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointRX.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointRX.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ColorPointRX
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointRX.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointRX.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ColorPointRY
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointRY.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointRY.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ColorPointRY
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointRY.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointRY.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ColorPointRIntensity
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointRIntensity.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointRIntensity.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ColorPointRIntensity
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointRIntensity.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointRIntensity.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ColorPointGX
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointGX.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointGX.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ColorPointGX
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointGX.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointGX.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ColorPointGY
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointGY.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointGY.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ColorPointGY
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointGY.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointGY.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ColorPointGIntensity
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointGIntensity.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointGIntensity.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ColorPointGIntensity
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointGIntensity.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointGIntensity.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ColorPointBX
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointBX.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointBX.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ColorPointBX
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointBX.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointBX.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ColorPointBY
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointBY.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointBY.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ColorPointBY
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointBY.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointBY.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ColorPointBIntensity
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointBIntensity.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorPointBIntensity.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ColorPointBIntensity
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointBIntensity.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorPointBIntensity.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute EnhancedCurrentHue
         self._chipLib.chip_ime_ReadAttribute_ColorControl_EnhancedCurrentHue.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_EnhancedCurrentHue.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute EnhancedCurrentHue
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_EnhancedCurrentHue.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_EnhancedCurrentHue.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute EnhancedColorMode
         self._chipLib.chip_ime_ReadAttribute_ColorControl_EnhancedColorMode.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_EnhancedColorMode.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute EnhancedColorMode
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_EnhancedColorMode.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_EnhancedColorMode.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ColorLoopActive
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorLoopActive.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorLoopActive.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ColorLoopActive
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorLoopActive.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorLoopActive.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ColorLoopDirection
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorLoopDirection.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorLoopDirection.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ColorLoopDirection
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorLoopDirection.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorLoopDirection.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ColorLoopTime
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorLoopTime.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorLoopTime.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ColorLoopTime
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorLoopTime.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorLoopTime.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ColorLoopStartEnhancedHue
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorLoopStartEnhancedHue.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorLoopStartEnhancedHue.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ColorLoopStartEnhancedHue
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorLoopStartEnhancedHue.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorLoopStartEnhancedHue.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ColorLoopStoredEnhancedHue
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorLoopStoredEnhancedHue.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorLoopStoredEnhancedHue.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ColorLoopStoredEnhancedHue
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorLoopStoredEnhancedHue.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorLoopStoredEnhancedHue.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ColorCapabilities
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorCapabilities.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorCapabilities.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ColorCapabilities
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorCapabilities.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorCapabilities.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ColorTempPhysicalMin
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorTempPhysicalMin.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorTempPhysicalMin.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ColorTempPhysicalMin
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorTempPhysicalMin.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorTempPhysicalMin.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ColorTempPhysicalMax
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorTempPhysicalMax.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ColorTempPhysicalMax.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ColorTempPhysicalMax
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorTempPhysicalMax.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ColorTempPhysicalMax.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute CoupleColorTempToLevelMinMireds
         self._chipLib.chip_ime_ReadAttribute_ColorControl_CoupleColorTempToLevelMinMireds.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_CoupleColorTempToLevelMinMireds.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute CoupleColorTempToLevelMinMireds
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_CoupleColorTempToLevelMinMireds.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_CoupleColorTempToLevelMinMireds.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute StartUpColorTemperatureMireds
         self._chipLib.chip_ime_ReadAttribute_ColorControl_StartUpColorTemperatureMireds.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_StartUpColorTemperatureMireds.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute StartUpColorTemperatureMireds
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_StartUpColorTemperatureMireds.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_StartUpColorTemperatureMireds.restype = ctypes.c_uint32
         # Cluster ColorControl ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ColorControl_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster ColorControl SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ColorControl_ClusterRevision.restype = ctypes.c_uint32
         # Cluster ContentLauncher
         # Cluster ContentLauncher ReadAttribute AcceptsHeaderList
         self._chipLib.chip_ime_ReadAttribute_ContentLauncher_AcceptsHeaderList.argtypes = [
@@ -6568,6 +8607,10 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_ContentLauncher_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ContentLauncher_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster ContentLauncher SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_ContentLauncher_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ContentLauncher_ClusterRevision.restype = ctypes.c_uint32
         # Cluster Descriptor
         # Cluster Descriptor ReadAttribute DeviceList
         self._chipLib.chip_ime_ReadAttribute_Descriptor_DeviceList.argtypes = [
@@ -6589,6 +8632,10 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_Descriptor_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Descriptor_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster Descriptor SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_Descriptor_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Descriptor_ClusterRevision.restype = ctypes.c_uint32
         # Cluster DiagnosticLogs
         # Cluster DoorLock
         # Cluster DoorLock ReadAttribute LockState
@@ -6603,104 +8650,204 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_DoorLock_LockType.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_DoorLock_LockType.restype = ctypes.c_uint32
+        # Cluster DoorLock SubscribeAttribute LockType
+        self._chipLib.chip_ime_SubscribeAttribute_DoorLock_LockType.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_DoorLock_LockType.restype = ctypes.c_uint32
         # Cluster DoorLock ReadAttribute ActuatorEnabled
         self._chipLib.chip_ime_ReadAttribute_DoorLock_ActuatorEnabled.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_DoorLock_ActuatorEnabled.restype = ctypes.c_uint32
+        # Cluster DoorLock SubscribeAttribute ActuatorEnabled
+        self._chipLib.chip_ime_SubscribeAttribute_DoorLock_ActuatorEnabled.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_DoorLock_ActuatorEnabled.restype = ctypes.c_uint32
         # Cluster DoorLock ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_DoorLock_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_DoorLock_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster DoorLock SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_DoorLock_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_DoorLock_ClusterRevision.restype = ctypes.c_uint32
         # Cluster ElectricalMeasurement
         # Cluster ElectricalMeasurement ReadAttribute MeasurementType
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_MeasurementType.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_MeasurementType.restype = ctypes.c_uint32
+        # Cluster ElectricalMeasurement SubscribeAttribute MeasurementType
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_MeasurementType.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_MeasurementType.restype = ctypes.c_uint32
         # Cluster ElectricalMeasurement ReadAttribute TotalActivePower
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_TotalActivePower.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_TotalActivePower.restype = ctypes.c_uint32
+        # Cluster ElectricalMeasurement SubscribeAttribute TotalActivePower
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_TotalActivePower.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_TotalActivePower.restype = ctypes.c_uint32
         # Cluster ElectricalMeasurement ReadAttribute RmsVoltage
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_RmsVoltage.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_RmsVoltage.restype = ctypes.c_uint32
+        # Cluster ElectricalMeasurement SubscribeAttribute RmsVoltage
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsVoltage.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsVoltage.restype = ctypes.c_uint32
         # Cluster ElectricalMeasurement ReadAttribute RmsVoltageMin
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_RmsVoltageMin.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_RmsVoltageMin.restype = ctypes.c_uint32
+        # Cluster ElectricalMeasurement SubscribeAttribute RmsVoltageMin
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsVoltageMin.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsVoltageMin.restype = ctypes.c_uint32
         # Cluster ElectricalMeasurement ReadAttribute RmsVoltageMax
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_RmsVoltageMax.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_RmsVoltageMax.restype = ctypes.c_uint32
+        # Cluster ElectricalMeasurement SubscribeAttribute RmsVoltageMax
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsVoltageMax.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsVoltageMax.restype = ctypes.c_uint32
         # Cluster ElectricalMeasurement ReadAttribute RmsCurrent
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_RmsCurrent.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_RmsCurrent.restype = ctypes.c_uint32
+        # Cluster ElectricalMeasurement SubscribeAttribute RmsCurrent
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsCurrent.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsCurrent.restype = ctypes.c_uint32
         # Cluster ElectricalMeasurement ReadAttribute RmsCurrentMin
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_RmsCurrentMin.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_RmsCurrentMin.restype = ctypes.c_uint32
+        # Cluster ElectricalMeasurement SubscribeAttribute RmsCurrentMin
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsCurrentMin.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsCurrentMin.restype = ctypes.c_uint32
         # Cluster ElectricalMeasurement ReadAttribute RmsCurrentMax
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_RmsCurrentMax.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_RmsCurrentMax.restype = ctypes.c_uint32
+        # Cluster ElectricalMeasurement SubscribeAttribute RmsCurrentMax
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsCurrentMax.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_RmsCurrentMax.restype = ctypes.c_uint32
         # Cluster ElectricalMeasurement ReadAttribute ActivePower
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_ActivePower.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_ActivePower.restype = ctypes.c_uint32
+        # Cluster ElectricalMeasurement SubscribeAttribute ActivePower
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_ActivePower.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_ActivePower.restype = ctypes.c_uint32
         # Cluster ElectricalMeasurement ReadAttribute ActivePowerMin
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_ActivePowerMin.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_ActivePowerMin.restype = ctypes.c_uint32
+        # Cluster ElectricalMeasurement SubscribeAttribute ActivePowerMin
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_ActivePowerMin.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_ActivePowerMin.restype = ctypes.c_uint32
         # Cluster ElectricalMeasurement ReadAttribute ActivePowerMax
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_ActivePowerMax.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_ActivePowerMax.restype = ctypes.c_uint32
+        # Cluster ElectricalMeasurement SubscribeAttribute ActivePowerMax
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_ActivePowerMax.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_ActivePowerMax.restype = ctypes.c_uint32
         # Cluster ElectricalMeasurement ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ElectricalMeasurement_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster ElectricalMeasurement SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ElectricalMeasurement_ClusterRevision.restype = ctypes.c_uint32
         # Cluster EthernetNetworkDiagnostics
         # Cluster EthernetNetworkDiagnostics ReadAttribute PHYRate
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_PHYRate.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_PHYRate.restype = ctypes.c_uint32
+        # Cluster EthernetNetworkDiagnostics SubscribeAttribute PHYRate
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_PHYRate.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_PHYRate.restype = ctypes.c_uint32
         # Cluster EthernetNetworkDiagnostics ReadAttribute FullDuplex
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_FullDuplex.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_FullDuplex.restype = ctypes.c_uint32
+        # Cluster EthernetNetworkDiagnostics SubscribeAttribute FullDuplex
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_FullDuplex.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_FullDuplex.restype = ctypes.c_uint32
         # Cluster EthernetNetworkDiagnostics ReadAttribute PacketRxCount
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_PacketRxCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_PacketRxCount.restype = ctypes.c_uint32
+        # Cluster EthernetNetworkDiagnostics SubscribeAttribute PacketRxCount
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_PacketRxCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_PacketRxCount.restype = ctypes.c_uint32
         # Cluster EthernetNetworkDiagnostics ReadAttribute PacketTxCount
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_PacketTxCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_PacketTxCount.restype = ctypes.c_uint32
+        # Cluster EthernetNetworkDiagnostics SubscribeAttribute PacketTxCount
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_PacketTxCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_PacketTxCount.restype = ctypes.c_uint32
         # Cluster EthernetNetworkDiagnostics ReadAttribute TxErrCount
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_TxErrCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_TxErrCount.restype = ctypes.c_uint32
+        # Cluster EthernetNetworkDiagnostics SubscribeAttribute TxErrCount
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_TxErrCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_TxErrCount.restype = ctypes.c_uint32
         # Cluster EthernetNetworkDiagnostics ReadAttribute CollisionCount
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_CollisionCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_CollisionCount.restype = ctypes.c_uint32
+        # Cluster EthernetNetworkDiagnostics SubscribeAttribute CollisionCount
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_CollisionCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_CollisionCount.restype = ctypes.c_uint32
         # Cluster EthernetNetworkDiagnostics ReadAttribute OverrunCount
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_OverrunCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_OverrunCount.restype = ctypes.c_uint32
+        # Cluster EthernetNetworkDiagnostics SubscribeAttribute OverrunCount
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_OverrunCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_OverrunCount.restype = ctypes.c_uint32
         # Cluster EthernetNetworkDiagnostics ReadAttribute CarrierDetect
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_CarrierDetect.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_CarrierDetect.restype = ctypes.c_uint32
+        # Cluster EthernetNetworkDiagnostics SubscribeAttribute CarrierDetect
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_CarrierDetect.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_CarrierDetect.restype = ctypes.c_uint32
         # Cluster EthernetNetworkDiagnostics ReadAttribute TimeSinceReset
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_TimeSinceReset.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_TimeSinceReset.restype = ctypes.c_uint32
+        # Cluster EthernetNetworkDiagnostics SubscribeAttribute TimeSinceReset
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_TimeSinceReset.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_TimeSinceReset.restype = ctypes.c_uint32
         # Cluster EthernetNetworkDiagnostics ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_EthernetNetworkDiagnostics_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster EthernetNetworkDiagnostics SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_EthernetNetworkDiagnostics_ClusterRevision.restype = ctypes.c_uint32
         # Cluster FixedLabel
         # Cluster FixedLabel ReadAttribute LabelList
         self._chipLib.chip_ime_ReadAttribute_FixedLabel_LabelList.argtypes = [
@@ -6710,32 +8857,60 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_FixedLabel_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_FixedLabel_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster FixedLabel SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_FixedLabel_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_FixedLabel_ClusterRevision.restype = ctypes.c_uint32
         # Cluster FlowMeasurement
         # Cluster FlowMeasurement ReadAttribute MeasuredValue
         self._chipLib.chip_ime_ReadAttribute_FlowMeasurement_MeasuredValue.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_FlowMeasurement_MeasuredValue.restype = ctypes.c_uint32
+        # Cluster FlowMeasurement SubscribeAttribute MeasuredValue
+        self._chipLib.chip_ime_SubscribeAttribute_FlowMeasurement_MeasuredValue.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_FlowMeasurement_MeasuredValue.restype = ctypes.c_uint32
         # Cluster FlowMeasurement ReadAttribute MinMeasuredValue
         self._chipLib.chip_ime_ReadAttribute_FlowMeasurement_MinMeasuredValue.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_FlowMeasurement_MinMeasuredValue.restype = ctypes.c_uint32
+        # Cluster FlowMeasurement SubscribeAttribute MinMeasuredValue
+        self._chipLib.chip_ime_SubscribeAttribute_FlowMeasurement_MinMeasuredValue.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_FlowMeasurement_MinMeasuredValue.restype = ctypes.c_uint32
         # Cluster FlowMeasurement ReadAttribute MaxMeasuredValue
         self._chipLib.chip_ime_ReadAttribute_FlowMeasurement_MaxMeasuredValue.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_FlowMeasurement_MaxMeasuredValue.restype = ctypes.c_uint32
+        # Cluster FlowMeasurement SubscribeAttribute MaxMeasuredValue
+        self._chipLib.chip_ime_SubscribeAttribute_FlowMeasurement_MaxMeasuredValue.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_FlowMeasurement_MaxMeasuredValue.restype = ctypes.c_uint32
         # Cluster FlowMeasurement ReadAttribute Tolerance
         self._chipLib.chip_ime_ReadAttribute_FlowMeasurement_Tolerance.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_FlowMeasurement_Tolerance.restype = ctypes.c_uint32
+        # Cluster FlowMeasurement SubscribeAttribute Tolerance
+        self._chipLib.chip_ime_SubscribeAttribute_FlowMeasurement_Tolerance.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_FlowMeasurement_Tolerance.restype = ctypes.c_uint32
         # Cluster FlowMeasurement ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_FlowMeasurement_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_FlowMeasurement_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster FlowMeasurement SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_FlowMeasurement_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_FlowMeasurement_ClusterRevision.restype = ctypes.c_uint32
         # Cluster GeneralCommissioning
         # Cluster GeneralCommissioning ReadAttribute Breadcrumb
         self._chipLib.chip_ime_ReadAttribute_GeneralCommissioning_Breadcrumb.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_GeneralCommissioning_Breadcrumb.restype = ctypes.c_uint32
+        # Cluster GeneralCommissioning SubscribeAttribute Breadcrumb
+        self._chipLib.chip_ime_SubscribeAttribute_GeneralCommissioning_Breadcrumb.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_GeneralCommissioning_Breadcrumb.restype = ctypes.c_uint32
         # Cluster GeneralCommissioning ReadAttribute BasicCommissioningInfoList
         self._chipLib.chip_ime_ReadAttribute_GeneralCommissioning_BasicCommissioningInfoList.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -6744,6 +8919,10 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_GeneralCommissioning_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_GeneralCommissioning_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster GeneralCommissioning SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_GeneralCommissioning_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_GeneralCommissioning_ClusterRevision.restype = ctypes.c_uint32
         # Cluster GeneralDiagnostics
         # Cluster GeneralDiagnostics ReadAttribute NetworkInterfaces
         self._chipLib.chip_ime_ReadAttribute_GeneralDiagnostics_NetworkInterfaces.argtypes = [
@@ -6753,18 +8932,34 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_GeneralDiagnostics_RebootCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_GeneralDiagnostics_RebootCount.restype = ctypes.c_uint32
+        # Cluster GeneralDiagnostics SubscribeAttribute RebootCount
+        self._chipLib.chip_ime_SubscribeAttribute_GeneralDiagnostics_RebootCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_GeneralDiagnostics_RebootCount.restype = ctypes.c_uint32
         # Cluster GeneralDiagnostics ReadAttribute UpTime
         self._chipLib.chip_ime_ReadAttribute_GeneralDiagnostics_UpTime.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_GeneralDiagnostics_UpTime.restype = ctypes.c_uint32
+        # Cluster GeneralDiagnostics SubscribeAttribute UpTime
+        self._chipLib.chip_ime_SubscribeAttribute_GeneralDiagnostics_UpTime.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_GeneralDiagnostics_UpTime.restype = ctypes.c_uint32
         # Cluster GeneralDiagnostics ReadAttribute TotalOperationalHours
         self._chipLib.chip_ime_ReadAttribute_GeneralDiagnostics_TotalOperationalHours.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_GeneralDiagnostics_TotalOperationalHours.restype = ctypes.c_uint32
+        # Cluster GeneralDiagnostics SubscribeAttribute TotalOperationalHours
+        self._chipLib.chip_ime_SubscribeAttribute_GeneralDiagnostics_TotalOperationalHours.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_GeneralDiagnostics_TotalOperationalHours.restype = ctypes.c_uint32
         # Cluster GeneralDiagnostics ReadAttribute BootReasons
         self._chipLib.chip_ime_ReadAttribute_GeneralDiagnostics_BootReasons.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_GeneralDiagnostics_BootReasons.restype = ctypes.c_uint32
+        # Cluster GeneralDiagnostics SubscribeAttribute BootReasons
+        self._chipLib.chip_ime_SubscribeAttribute_GeneralDiagnostics_BootReasons.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_GeneralDiagnostics_BootReasons.restype = ctypes.c_uint32
         # Cluster GeneralDiagnostics ReadAttribute ActiveHardwareFaults
         self._chipLib.chip_ime_ReadAttribute_GeneralDiagnostics_ActiveHardwareFaults.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -6781,6 +8976,10 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_GeneralDiagnostics_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_GeneralDiagnostics_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster GeneralDiagnostics SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_GeneralDiagnostics_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_GeneralDiagnostics_ClusterRevision.restype = ctypes.c_uint32
         # Cluster GroupKeyManagement
         # Cluster GroupKeyManagement ReadAttribute Groups
         self._chipLib.chip_ime_ReadAttribute_GroupKeyManagement_Groups.argtypes = [
@@ -6794,28 +8993,52 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_GroupKeyManagement_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_GroupKeyManagement_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster GroupKeyManagement SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_GroupKeyManagement_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_GroupKeyManagement_ClusterRevision.restype = ctypes.c_uint32
         # Cluster Groups
         # Cluster Groups ReadAttribute NameSupport
         self._chipLib.chip_ime_ReadAttribute_Groups_NameSupport.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Groups_NameSupport.restype = ctypes.c_uint32
+        # Cluster Groups SubscribeAttribute NameSupport
+        self._chipLib.chip_ime_SubscribeAttribute_Groups_NameSupport.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Groups_NameSupport.restype = ctypes.c_uint32
         # Cluster Groups ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_Groups_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Groups_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster Groups SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_Groups_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Groups_ClusterRevision.restype = ctypes.c_uint32
         # Cluster Identify
         # Cluster Identify ReadAttribute IdentifyTime
         self._chipLib.chip_ime_ReadAttribute_Identify_IdentifyTime.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Identify_IdentifyTime.restype = ctypes.c_uint32
+        # Cluster Identify SubscribeAttribute IdentifyTime
+        self._chipLib.chip_ime_SubscribeAttribute_Identify_IdentifyTime.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Identify_IdentifyTime.restype = ctypes.c_uint32
         # Cluster Identify ReadAttribute IdentifyType
         self._chipLib.chip_ime_ReadAttribute_Identify_IdentifyType.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Identify_IdentifyType.restype = ctypes.c_uint32
+        # Cluster Identify SubscribeAttribute IdentifyType
+        self._chipLib.chip_ime_SubscribeAttribute_Identify_IdentifyType.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Identify_IdentifyType.restype = ctypes.c_uint32
         # Cluster Identify ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_Identify_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Identify_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster Identify SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_Identify_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Identify_ClusterRevision.restype = ctypes.c_uint32
         # Cluster IlluminanceMeasurement
         # Cluster IlluminanceMeasurement ReadAttribute MeasuredValue
         self._chipLib.chip_ime_ReadAttribute_IlluminanceMeasurement_MeasuredValue.argtypes = [
@@ -6829,27 +9052,51 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_IlluminanceMeasurement_MinMeasuredValue.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_IlluminanceMeasurement_MinMeasuredValue.restype = ctypes.c_uint32
+        # Cluster IlluminanceMeasurement SubscribeAttribute MinMeasuredValue
+        self._chipLib.chip_ime_SubscribeAttribute_IlluminanceMeasurement_MinMeasuredValue.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_IlluminanceMeasurement_MinMeasuredValue.restype = ctypes.c_uint32
         # Cluster IlluminanceMeasurement ReadAttribute MaxMeasuredValue
         self._chipLib.chip_ime_ReadAttribute_IlluminanceMeasurement_MaxMeasuredValue.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_IlluminanceMeasurement_MaxMeasuredValue.restype = ctypes.c_uint32
+        # Cluster IlluminanceMeasurement SubscribeAttribute MaxMeasuredValue
+        self._chipLib.chip_ime_SubscribeAttribute_IlluminanceMeasurement_MaxMeasuredValue.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_IlluminanceMeasurement_MaxMeasuredValue.restype = ctypes.c_uint32
         # Cluster IlluminanceMeasurement ReadAttribute Tolerance
         self._chipLib.chip_ime_ReadAttribute_IlluminanceMeasurement_Tolerance.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_IlluminanceMeasurement_Tolerance.restype = ctypes.c_uint32
+        # Cluster IlluminanceMeasurement SubscribeAttribute Tolerance
+        self._chipLib.chip_ime_SubscribeAttribute_IlluminanceMeasurement_Tolerance.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_IlluminanceMeasurement_Tolerance.restype = ctypes.c_uint32
         # Cluster IlluminanceMeasurement ReadAttribute LightSensorType
         self._chipLib.chip_ime_ReadAttribute_IlluminanceMeasurement_LightSensorType.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_IlluminanceMeasurement_LightSensorType.restype = ctypes.c_uint32
+        # Cluster IlluminanceMeasurement SubscribeAttribute LightSensorType
+        self._chipLib.chip_ime_SubscribeAttribute_IlluminanceMeasurement_LightSensorType.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_IlluminanceMeasurement_LightSensorType.restype = ctypes.c_uint32
         # Cluster IlluminanceMeasurement ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_IlluminanceMeasurement_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_IlluminanceMeasurement_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster IlluminanceMeasurement SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_IlluminanceMeasurement_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_IlluminanceMeasurement_ClusterRevision.restype = ctypes.c_uint32
         # Cluster KeypadInput
         # Cluster KeypadInput ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_KeypadInput_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_KeypadInput_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster KeypadInput SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_KeypadInput_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_KeypadInput_ClusterRevision.restype = ctypes.c_uint32
         # Cluster LevelControl
         # Cluster LevelControl ReadAttribute CurrentLevel
         self._chipLib.chip_ime_ReadAttribute_LevelControl_CurrentLevel.argtypes = [
@@ -6863,63 +9110,123 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_LevelControl_RemainingTime.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_LevelControl_RemainingTime.restype = ctypes.c_uint32
+        # Cluster LevelControl SubscribeAttribute RemainingTime
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_RemainingTime.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_RemainingTime.restype = ctypes.c_uint32
         # Cluster LevelControl ReadAttribute MinLevel
         self._chipLib.chip_ime_ReadAttribute_LevelControl_MinLevel.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_LevelControl_MinLevel.restype = ctypes.c_uint32
+        # Cluster LevelControl SubscribeAttribute MinLevel
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_MinLevel.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_MinLevel.restype = ctypes.c_uint32
         # Cluster LevelControl ReadAttribute MaxLevel
         self._chipLib.chip_ime_ReadAttribute_LevelControl_MaxLevel.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_LevelControl_MaxLevel.restype = ctypes.c_uint32
+        # Cluster LevelControl SubscribeAttribute MaxLevel
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_MaxLevel.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_MaxLevel.restype = ctypes.c_uint32
         # Cluster LevelControl ReadAttribute CurrentFrequency
         self._chipLib.chip_ime_ReadAttribute_LevelControl_CurrentFrequency.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_LevelControl_CurrentFrequency.restype = ctypes.c_uint32
+        # Cluster LevelControl SubscribeAttribute CurrentFrequency
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_CurrentFrequency.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_CurrentFrequency.restype = ctypes.c_uint32
         # Cluster LevelControl ReadAttribute MinFrequency
         self._chipLib.chip_ime_ReadAttribute_LevelControl_MinFrequency.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_LevelControl_MinFrequency.restype = ctypes.c_uint32
+        # Cluster LevelControl SubscribeAttribute MinFrequency
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_MinFrequency.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_MinFrequency.restype = ctypes.c_uint32
         # Cluster LevelControl ReadAttribute MaxFrequency
         self._chipLib.chip_ime_ReadAttribute_LevelControl_MaxFrequency.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_LevelControl_MaxFrequency.restype = ctypes.c_uint32
+        # Cluster LevelControl SubscribeAttribute MaxFrequency
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_MaxFrequency.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_MaxFrequency.restype = ctypes.c_uint32
         # Cluster LevelControl ReadAttribute Options
         self._chipLib.chip_ime_ReadAttribute_LevelControl_Options.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_LevelControl_Options.restype = ctypes.c_uint32
+        # Cluster LevelControl SubscribeAttribute Options
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_Options.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_Options.restype = ctypes.c_uint32
         # Cluster LevelControl ReadAttribute OnOffTransitionTime
         self._chipLib.chip_ime_ReadAttribute_LevelControl_OnOffTransitionTime.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_LevelControl_OnOffTransitionTime.restype = ctypes.c_uint32
+        # Cluster LevelControl SubscribeAttribute OnOffTransitionTime
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_OnOffTransitionTime.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_OnOffTransitionTime.restype = ctypes.c_uint32
         # Cluster LevelControl ReadAttribute OnLevel
         self._chipLib.chip_ime_ReadAttribute_LevelControl_OnLevel.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_LevelControl_OnLevel.restype = ctypes.c_uint32
+        # Cluster LevelControl SubscribeAttribute OnLevel
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_OnLevel.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_OnLevel.restype = ctypes.c_uint32
         # Cluster LevelControl ReadAttribute OnTransitionTime
         self._chipLib.chip_ime_ReadAttribute_LevelControl_OnTransitionTime.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_LevelControl_OnTransitionTime.restype = ctypes.c_uint32
+        # Cluster LevelControl SubscribeAttribute OnTransitionTime
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_OnTransitionTime.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_OnTransitionTime.restype = ctypes.c_uint32
         # Cluster LevelControl ReadAttribute OffTransitionTime
         self._chipLib.chip_ime_ReadAttribute_LevelControl_OffTransitionTime.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_LevelControl_OffTransitionTime.restype = ctypes.c_uint32
+        # Cluster LevelControl SubscribeAttribute OffTransitionTime
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_OffTransitionTime.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_OffTransitionTime.restype = ctypes.c_uint32
         # Cluster LevelControl ReadAttribute DefaultMoveRate
         self._chipLib.chip_ime_ReadAttribute_LevelControl_DefaultMoveRate.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_LevelControl_DefaultMoveRate.restype = ctypes.c_uint32
+        # Cluster LevelControl SubscribeAttribute DefaultMoveRate
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_DefaultMoveRate.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_DefaultMoveRate.restype = ctypes.c_uint32
         # Cluster LevelControl ReadAttribute StartUpCurrentLevel
         self._chipLib.chip_ime_ReadAttribute_LevelControl_StartUpCurrentLevel.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_LevelControl_StartUpCurrentLevel.restype = ctypes.c_uint32
+        # Cluster LevelControl SubscribeAttribute StartUpCurrentLevel
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_StartUpCurrentLevel.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_StartUpCurrentLevel.restype = ctypes.c_uint32
         # Cluster LevelControl ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_LevelControl_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_LevelControl_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster LevelControl SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_LevelControl_ClusterRevision.restype = ctypes.c_uint32
         # Cluster LowPower
         # Cluster LowPower ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_LowPower_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_LowPower_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster LowPower SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_LowPower_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_LowPower_ClusterRevision.restype = ctypes.c_uint32
         # Cluster MediaInput
         # Cluster MediaInput ReadAttribute MediaInputList
         self._chipLib.chip_ime_ReadAttribute_MediaInput_MediaInputList.argtypes = [
@@ -6929,47 +9236,91 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_MediaInput_CurrentMediaInput.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_MediaInput_CurrentMediaInput.restype = ctypes.c_uint32
+        # Cluster MediaInput SubscribeAttribute CurrentMediaInput
+        self._chipLib.chip_ime_SubscribeAttribute_MediaInput_CurrentMediaInput.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_MediaInput_CurrentMediaInput.restype = ctypes.c_uint32
         # Cluster MediaInput ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_MediaInput_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_MediaInput_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster MediaInput SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_MediaInput_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_MediaInput_ClusterRevision.restype = ctypes.c_uint32
         # Cluster MediaPlayback
         # Cluster MediaPlayback ReadAttribute PlaybackState
         self._chipLib.chip_ime_ReadAttribute_MediaPlayback_PlaybackState.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_MediaPlayback_PlaybackState.restype = ctypes.c_uint32
+        # Cluster MediaPlayback SubscribeAttribute PlaybackState
+        self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_PlaybackState.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_PlaybackState.restype = ctypes.c_uint32
         # Cluster MediaPlayback ReadAttribute StartTime
         self._chipLib.chip_ime_ReadAttribute_MediaPlayback_StartTime.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_MediaPlayback_StartTime.restype = ctypes.c_uint32
+        # Cluster MediaPlayback SubscribeAttribute StartTime
+        self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_StartTime.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_StartTime.restype = ctypes.c_uint32
         # Cluster MediaPlayback ReadAttribute Duration
         self._chipLib.chip_ime_ReadAttribute_MediaPlayback_Duration.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_MediaPlayback_Duration.restype = ctypes.c_uint32
+        # Cluster MediaPlayback SubscribeAttribute Duration
+        self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_Duration.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_Duration.restype = ctypes.c_uint32
         # Cluster MediaPlayback ReadAttribute PositionUpdatedAt
         self._chipLib.chip_ime_ReadAttribute_MediaPlayback_PositionUpdatedAt.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_MediaPlayback_PositionUpdatedAt.restype = ctypes.c_uint32
+        # Cluster MediaPlayback SubscribeAttribute PositionUpdatedAt
+        self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_PositionUpdatedAt.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_PositionUpdatedAt.restype = ctypes.c_uint32
         # Cluster MediaPlayback ReadAttribute Position
         self._chipLib.chip_ime_ReadAttribute_MediaPlayback_Position.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_MediaPlayback_Position.restype = ctypes.c_uint32
+        # Cluster MediaPlayback SubscribeAttribute Position
+        self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_Position.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_Position.restype = ctypes.c_uint32
         # Cluster MediaPlayback ReadAttribute PlaybackSpeed
         self._chipLib.chip_ime_ReadAttribute_MediaPlayback_PlaybackSpeed.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_MediaPlayback_PlaybackSpeed.restype = ctypes.c_uint32
+        # Cluster MediaPlayback SubscribeAttribute PlaybackSpeed
+        self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_PlaybackSpeed.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_PlaybackSpeed.restype = ctypes.c_uint32
         # Cluster MediaPlayback ReadAttribute SeekRangeEnd
         self._chipLib.chip_ime_ReadAttribute_MediaPlayback_SeekRangeEnd.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_MediaPlayback_SeekRangeEnd.restype = ctypes.c_uint32
+        # Cluster MediaPlayback SubscribeAttribute SeekRangeEnd
+        self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_SeekRangeEnd.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_SeekRangeEnd.restype = ctypes.c_uint32
         # Cluster MediaPlayback ReadAttribute SeekRangeStart
         self._chipLib.chip_ime_ReadAttribute_MediaPlayback_SeekRangeStart.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_MediaPlayback_SeekRangeStart.restype = ctypes.c_uint32
+        # Cluster MediaPlayback SubscribeAttribute SeekRangeStart
+        self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_SeekRangeStart.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_SeekRangeStart.restype = ctypes.c_uint32
         # Cluster MediaPlayback ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_MediaPlayback_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_MediaPlayback_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster MediaPlayback SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_MediaPlayback_ClusterRevision.restype = ctypes.c_uint32
         # Cluster ModeSelect
         # Cluster ModeSelect ReadAttribute CurrentMode
         self._chipLib.chip_ime_ReadAttribute_ModeSelect_CurrentMode.argtypes = [
@@ -6987,45 +9338,85 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_ModeSelect_OnMode.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ModeSelect_OnMode.restype = ctypes.c_uint32
+        # Cluster ModeSelect SubscribeAttribute OnMode
+        self._chipLib.chip_ime_SubscribeAttribute_ModeSelect_OnMode.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ModeSelect_OnMode.restype = ctypes.c_uint32
         # Cluster ModeSelect ReadAttribute StartUpMode
         self._chipLib.chip_ime_ReadAttribute_ModeSelect_StartUpMode.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ModeSelect_StartUpMode.restype = ctypes.c_uint32
+        # Cluster ModeSelect SubscribeAttribute StartUpMode
+        self._chipLib.chip_ime_SubscribeAttribute_ModeSelect_StartUpMode.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ModeSelect_StartUpMode.restype = ctypes.c_uint32
         # Cluster ModeSelect ReadAttribute Description
         self._chipLib.chip_ime_ReadAttribute_ModeSelect_Description.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ModeSelect_Description.restype = ctypes.c_uint32
+        # Cluster ModeSelect SubscribeAttribute Description
+        self._chipLib.chip_ime_SubscribeAttribute_ModeSelect_Description.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ModeSelect_Description.restype = ctypes.c_uint32
         # Cluster ModeSelect ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_ModeSelect_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ModeSelect_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster ModeSelect SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_ModeSelect_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ModeSelect_ClusterRevision.restype = ctypes.c_uint32
         # Cluster NetworkCommissioning
         # Cluster NetworkCommissioning ReadAttribute FeatureMap
         self._chipLib.chip_ime_ReadAttribute_NetworkCommissioning_FeatureMap.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_NetworkCommissioning_FeatureMap.restype = ctypes.c_uint32
+        # Cluster NetworkCommissioning SubscribeAttribute FeatureMap
+        self._chipLib.chip_ime_SubscribeAttribute_NetworkCommissioning_FeatureMap.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_NetworkCommissioning_FeatureMap.restype = ctypes.c_uint32
         # Cluster NetworkCommissioning ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_NetworkCommissioning_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_NetworkCommissioning_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster NetworkCommissioning SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_NetworkCommissioning_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_NetworkCommissioning_ClusterRevision.restype = ctypes.c_uint32
         # Cluster OtaSoftwareUpdateProvider
         # Cluster OtaSoftwareUpdateProvider ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_OtaSoftwareUpdateProvider_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OtaSoftwareUpdateProvider_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster OtaSoftwareUpdateProvider SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_OtaSoftwareUpdateProvider_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OtaSoftwareUpdateProvider_ClusterRevision.restype = ctypes.c_uint32
         # Cluster OtaSoftwareUpdateRequestor
         # Cluster OtaSoftwareUpdateRequestor ReadAttribute DefaultOtaProvider
         self._chipLib.chip_ime_ReadAttribute_OtaSoftwareUpdateRequestor_DefaultOtaProvider.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OtaSoftwareUpdateRequestor_DefaultOtaProvider.restype = ctypes.c_uint32
+        # Cluster OtaSoftwareUpdateRequestor SubscribeAttribute DefaultOtaProvider
+        self._chipLib.chip_ime_SubscribeAttribute_OtaSoftwareUpdateRequestor_DefaultOtaProvider.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OtaSoftwareUpdateRequestor_DefaultOtaProvider.restype = ctypes.c_uint32
         # Cluster OtaSoftwareUpdateRequestor ReadAttribute UpdatePossible
         self._chipLib.chip_ime_ReadAttribute_OtaSoftwareUpdateRequestor_UpdatePossible.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OtaSoftwareUpdateRequestor_UpdatePossible.restype = ctypes.c_uint32
+        # Cluster OtaSoftwareUpdateRequestor SubscribeAttribute UpdatePossible
+        self._chipLib.chip_ime_SubscribeAttribute_OtaSoftwareUpdateRequestor_UpdatePossible.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OtaSoftwareUpdateRequestor_UpdatePossible.restype = ctypes.c_uint32
         # Cluster OtaSoftwareUpdateRequestor ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_OtaSoftwareUpdateRequestor_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OtaSoftwareUpdateRequestor_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster OtaSoftwareUpdateRequestor SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_OtaSoftwareUpdateRequestor_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OtaSoftwareUpdateRequestor_ClusterRevision.restype = ctypes.c_uint32
         # Cluster OccupancySensing
         # Cluster OccupancySensing ReadAttribute Occupancy
         self._chipLib.chip_ime_ReadAttribute_OccupancySensing_Occupancy.argtypes = [
@@ -7039,14 +9430,26 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_OccupancySensing_OccupancySensorType.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OccupancySensing_OccupancySensorType.restype = ctypes.c_uint32
+        # Cluster OccupancySensing SubscribeAttribute OccupancySensorType
+        self._chipLib.chip_ime_SubscribeAttribute_OccupancySensing_OccupancySensorType.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OccupancySensing_OccupancySensorType.restype = ctypes.c_uint32
         # Cluster OccupancySensing ReadAttribute OccupancySensorTypeBitmap
         self._chipLib.chip_ime_ReadAttribute_OccupancySensing_OccupancySensorTypeBitmap.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OccupancySensing_OccupancySensorTypeBitmap.restype = ctypes.c_uint32
+        # Cluster OccupancySensing SubscribeAttribute OccupancySensorTypeBitmap
+        self._chipLib.chip_ime_SubscribeAttribute_OccupancySensing_OccupancySensorTypeBitmap.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OccupancySensing_OccupancySensorTypeBitmap.restype = ctypes.c_uint32
         # Cluster OccupancySensing ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_OccupancySensing_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OccupancySensing_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster OccupancySensing SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_OccupancySensing_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OccupancySensing_ClusterRevision.restype = ctypes.c_uint32
         # Cluster OnOff
         # Cluster OnOff ReadAttribute OnOff
         self._chipLib.chip_ime_ReadAttribute_OnOff_OnOff.argtypes = [
@@ -7060,39 +9463,75 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_OnOff_GlobalSceneControl.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OnOff_GlobalSceneControl.restype = ctypes.c_uint32
+        # Cluster OnOff SubscribeAttribute GlobalSceneControl
+        self._chipLib.chip_ime_SubscribeAttribute_OnOff_GlobalSceneControl.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OnOff_GlobalSceneControl.restype = ctypes.c_uint32
         # Cluster OnOff ReadAttribute OnTime
         self._chipLib.chip_ime_ReadAttribute_OnOff_OnTime.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OnOff_OnTime.restype = ctypes.c_uint32
+        # Cluster OnOff SubscribeAttribute OnTime
+        self._chipLib.chip_ime_SubscribeAttribute_OnOff_OnTime.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OnOff_OnTime.restype = ctypes.c_uint32
         # Cluster OnOff ReadAttribute OffWaitTime
         self._chipLib.chip_ime_ReadAttribute_OnOff_OffWaitTime.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OnOff_OffWaitTime.restype = ctypes.c_uint32
+        # Cluster OnOff SubscribeAttribute OffWaitTime
+        self._chipLib.chip_ime_SubscribeAttribute_OnOff_OffWaitTime.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OnOff_OffWaitTime.restype = ctypes.c_uint32
         # Cluster OnOff ReadAttribute StartUpOnOff
         self._chipLib.chip_ime_ReadAttribute_OnOff_StartUpOnOff.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OnOff_StartUpOnOff.restype = ctypes.c_uint32
+        # Cluster OnOff SubscribeAttribute StartUpOnOff
+        self._chipLib.chip_ime_SubscribeAttribute_OnOff_StartUpOnOff.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OnOff_StartUpOnOff.restype = ctypes.c_uint32
         # Cluster OnOff ReadAttribute FeatureMap
         self._chipLib.chip_ime_ReadAttribute_OnOff_FeatureMap.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OnOff_FeatureMap.restype = ctypes.c_uint32
+        # Cluster OnOff SubscribeAttribute FeatureMap
+        self._chipLib.chip_ime_SubscribeAttribute_OnOff_FeatureMap.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OnOff_FeatureMap.restype = ctypes.c_uint32
         # Cluster OnOff ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_OnOff_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OnOff_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster OnOff SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_OnOff_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OnOff_ClusterRevision.restype = ctypes.c_uint32
         # Cluster OnOffSwitchConfiguration
         # Cluster OnOffSwitchConfiguration ReadAttribute SwitchType
         self._chipLib.chip_ime_ReadAttribute_OnOffSwitchConfiguration_SwitchType.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OnOffSwitchConfiguration_SwitchType.restype = ctypes.c_uint32
+        # Cluster OnOffSwitchConfiguration SubscribeAttribute SwitchType
+        self._chipLib.chip_ime_SubscribeAttribute_OnOffSwitchConfiguration_SwitchType.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OnOffSwitchConfiguration_SwitchType.restype = ctypes.c_uint32
         # Cluster OnOffSwitchConfiguration ReadAttribute SwitchActions
         self._chipLib.chip_ime_ReadAttribute_OnOffSwitchConfiguration_SwitchActions.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OnOffSwitchConfiguration_SwitchActions.restype = ctypes.c_uint32
+        # Cluster OnOffSwitchConfiguration SubscribeAttribute SwitchActions
+        self._chipLib.chip_ime_SubscribeAttribute_OnOffSwitchConfiguration_SwitchActions.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OnOffSwitchConfiguration_SwitchActions.restype = ctypes.c_uint32
         # Cluster OnOffSwitchConfiguration ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_OnOffSwitchConfiguration_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OnOffSwitchConfiguration_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster OnOffSwitchConfiguration SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_OnOffSwitchConfiguration_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OnOffSwitchConfiguration_ClusterRevision.restype = ctypes.c_uint32
         # Cluster OperationalCredentials
         # Cluster OperationalCredentials ReadAttribute FabricsList
         self._chipLib.chip_ime_ReadAttribute_OperationalCredentials_FabricsList.argtypes = [
@@ -7102,10 +9541,18 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_OperationalCredentials_SupportedFabrics.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OperationalCredentials_SupportedFabrics.restype = ctypes.c_uint32
+        # Cluster OperationalCredentials SubscribeAttribute SupportedFabrics
+        self._chipLib.chip_ime_SubscribeAttribute_OperationalCredentials_SupportedFabrics.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OperationalCredentials_SupportedFabrics.restype = ctypes.c_uint32
         # Cluster OperationalCredentials ReadAttribute CommissionedFabrics
         self._chipLib.chip_ime_ReadAttribute_OperationalCredentials_CommissionedFabrics.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OperationalCredentials_CommissionedFabrics.restype = ctypes.c_uint32
+        # Cluster OperationalCredentials SubscribeAttribute CommissionedFabrics
+        self._chipLib.chip_ime_SubscribeAttribute_OperationalCredentials_CommissionedFabrics.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OperationalCredentials_CommissionedFabrics.restype = ctypes.c_uint32
         # Cluster OperationalCredentials ReadAttribute TrustedRootCertificates
         self._chipLib.chip_ime_ReadAttribute_OperationalCredentials_TrustedRootCertificates.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -7114,39 +9561,75 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_OperationalCredentials_CurrentFabricIndex.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OperationalCredentials_CurrentFabricIndex.restype = ctypes.c_uint32
+        # Cluster OperationalCredentials SubscribeAttribute CurrentFabricIndex
+        self._chipLib.chip_ime_SubscribeAttribute_OperationalCredentials_CurrentFabricIndex.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OperationalCredentials_CurrentFabricIndex.restype = ctypes.c_uint32
         # Cluster OperationalCredentials ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_OperationalCredentials_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_OperationalCredentials_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster OperationalCredentials SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_OperationalCredentials_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_OperationalCredentials_ClusterRevision.restype = ctypes.c_uint32
         # Cluster PowerSource
         # Cluster PowerSource ReadAttribute Status
         self._chipLib.chip_ime_ReadAttribute_PowerSource_Status.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PowerSource_Status.restype = ctypes.c_uint32
+        # Cluster PowerSource SubscribeAttribute Status
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_Status.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_Status.restype = ctypes.c_uint32
         # Cluster PowerSource ReadAttribute Order
         self._chipLib.chip_ime_ReadAttribute_PowerSource_Order.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PowerSource_Order.restype = ctypes.c_uint32
+        # Cluster PowerSource SubscribeAttribute Order
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_Order.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_Order.restype = ctypes.c_uint32
         # Cluster PowerSource ReadAttribute Description
         self._chipLib.chip_ime_ReadAttribute_PowerSource_Description.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PowerSource_Description.restype = ctypes.c_uint32
+        # Cluster PowerSource SubscribeAttribute Description
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_Description.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_Description.restype = ctypes.c_uint32
         # Cluster PowerSource ReadAttribute BatteryVoltage
         self._chipLib.chip_ime_ReadAttribute_PowerSource_BatteryVoltage.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PowerSource_BatteryVoltage.restype = ctypes.c_uint32
+        # Cluster PowerSource SubscribeAttribute BatteryVoltage
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_BatteryVoltage.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_BatteryVoltage.restype = ctypes.c_uint32
         # Cluster PowerSource ReadAttribute BatteryPercentRemaining
         self._chipLib.chip_ime_ReadAttribute_PowerSource_BatteryPercentRemaining.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PowerSource_BatteryPercentRemaining.restype = ctypes.c_uint32
+        # Cluster PowerSource SubscribeAttribute BatteryPercentRemaining
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_BatteryPercentRemaining.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_BatteryPercentRemaining.restype = ctypes.c_uint32
         # Cluster PowerSource ReadAttribute BatteryTimeRemaining
         self._chipLib.chip_ime_ReadAttribute_PowerSource_BatteryTimeRemaining.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PowerSource_BatteryTimeRemaining.restype = ctypes.c_uint32
+        # Cluster PowerSource SubscribeAttribute BatteryTimeRemaining
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_BatteryTimeRemaining.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_BatteryTimeRemaining.restype = ctypes.c_uint32
         # Cluster PowerSource ReadAttribute BatteryChargeLevel
         self._chipLib.chip_ime_ReadAttribute_PowerSource_BatteryChargeLevel.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PowerSource_BatteryChargeLevel.restype = ctypes.c_uint32
+        # Cluster PowerSource SubscribeAttribute BatteryChargeLevel
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_BatteryChargeLevel.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_BatteryChargeLevel.restype = ctypes.c_uint32
         # Cluster PowerSource ReadAttribute ActiveBatteryFaults
         self._chipLib.chip_ime_ReadAttribute_PowerSource_ActiveBatteryFaults.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -7155,14 +9638,26 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_PowerSource_BatteryChargeState.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PowerSource_BatteryChargeState.restype = ctypes.c_uint32
+        # Cluster PowerSource SubscribeAttribute BatteryChargeState
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_BatteryChargeState.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_BatteryChargeState.restype = ctypes.c_uint32
         # Cluster PowerSource ReadAttribute FeatureMap
         self._chipLib.chip_ime_ReadAttribute_PowerSource_FeatureMap.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PowerSource_FeatureMap.restype = ctypes.c_uint32
+        # Cluster PowerSource SubscribeAttribute FeatureMap
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_FeatureMap.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_FeatureMap.restype = ctypes.c_uint32
         # Cluster PowerSource ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_PowerSource_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PowerSource_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster PowerSource SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PowerSource_ClusterRevision.restype = ctypes.c_uint32
         # Cluster PressureMeasurement
         # Cluster PressureMeasurement ReadAttribute MeasuredValue
         self._chipLib.chip_ime_ReadAttribute_PressureMeasurement_MeasuredValue.argtypes = [
@@ -7176,67 +9671,131 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_PressureMeasurement_MinMeasuredValue.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PressureMeasurement_MinMeasuredValue.restype = ctypes.c_uint32
+        # Cluster PressureMeasurement SubscribeAttribute MinMeasuredValue
+        self._chipLib.chip_ime_SubscribeAttribute_PressureMeasurement_MinMeasuredValue.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PressureMeasurement_MinMeasuredValue.restype = ctypes.c_uint32
         # Cluster PressureMeasurement ReadAttribute MaxMeasuredValue
         self._chipLib.chip_ime_ReadAttribute_PressureMeasurement_MaxMeasuredValue.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PressureMeasurement_MaxMeasuredValue.restype = ctypes.c_uint32
+        # Cluster PressureMeasurement SubscribeAttribute MaxMeasuredValue
+        self._chipLib.chip_ime_SubscribeAttribute_PressureMeasurement_MaxMeasuredValue.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PressureMeasurement_MaxMeasuredValue.restype = ctypes.c_uint32
         # Cluster PressureMeasurement ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_PressureMeasurement_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PressureMeasurement_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster PressureMeasurement SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_PressureMeasurement_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PressureMeasurement_ClusterRevision.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl
         # Cluster PumpConfigurationAndControl ReadAttribute MaxPressure
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxPressure.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxPressure.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute MaxPressure
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxPressure.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxPressure.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute MaxSpeed
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxSpeed.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxSpeed.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute MaxSpeed
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxSpeed.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxSpeed.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute MaxFlow
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxFlow.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxFlow.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute MaxFlow
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxFlow.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxFlow.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute MinConstPressure
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MinConstPressure.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MinConstPressure.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute MinConstPressure
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinConstPressure.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinConstPressure.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute MaxConstPressure
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxConstPressure.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxConstPressure.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute MaxConstPressure
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxConstPressure.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxConstPressure.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute MinCompPressure
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MinCompPressure.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MinCompPressure.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute MinCompPressure
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinCompPressure.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinCompPressure.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute MaxCompPressure
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxCompPressure.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxCompPressure.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute MaxCompPressure
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxCompPressure.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxCompPressure.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute MinConstSpeed
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MinConstSpeed.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MinConstSpeed.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute MinConstSpeed
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinConstSpeed.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinConstSpeed.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute MaxConstSpeed
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxConstSpeed.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxConstSpeed.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute MaxConstSpeed
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxConstSpeed.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxConstSpeed.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute MinConstFlow
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MinConstFlow.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MinConstFlow.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute MinConstFlow
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinConstFlow.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinConstFlow.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute MaxConstFlow
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxConstFlow.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxConstFlow.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute MaxConstFlow
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxConstFlow.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxConstFlow.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute MinConstTemp
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MinConstTemp.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MinConstTemp.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute MinConstTemp
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinConstTemp.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MinConstTemp.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute MaxConstTemp
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxConstTemp.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_MaxConstTemp.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute MaxConstTemp
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxConstTemp.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_MaxConstTemp.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute PumpStatus
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_PumpStatus.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -7249,10 +9808,18 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_EffectiveOperationMode.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_EffectiveOperationMode.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute EffectiveOperationMode
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_EffectiveOperationMode.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_EffectiveOperationMode.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute EffectiveControlMode
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_EffectiveControlMode.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_EffectiveControlMode.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute EffectiveControlMode
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_EffectiveControlMode.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_EffectiveControlMode.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute Capacity
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_Capacity.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -7265,30 +9832,58 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_Speed.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_Speed.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute Speed
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_Speed.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_Speed.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute LifetimeEnergyConsumed
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_LifetimeEnergyConsumed.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_LifetimeEnergyConsumed.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute LifetimeEnergyConsumed
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_LifetimeEnergyConsumed.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_LifetimeEnergyConsumed.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute OperationMode
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_OperationMode.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_OperationMode.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute OperationMode
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_OperationMode.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_OperationMode.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute ControlMode
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_ControlMode.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_ControlMode.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute ControlMode
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_ControlMode.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_ControlMode.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute AlarmMask
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_AlarmMask.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_AlarmMask.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute AlarmMask
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_AlarmMask.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_AlarmMask.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute FeatureMap
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_FeatureMap.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_FeatureMap.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute FeatureMap
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_FeatureMap.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_FeatureMap.restype = ctypes.c_uint32
         # Cluster PumpConfigurationAndControl ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_PumpConfigurationAndControl_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster PumpConfigurationAndControl SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_PumpConfigurationAndControl_ClusterRevision.restype = ctypes.c_uint32
         # Cluster RelativeHumidityMeasurement
         # Cluster RelativeHumidityMeasurement ReadAttribute MeasuredValue
         self._chipLib.chip_ime_ReadAttribute_RelativeHumidityMeasurement_MeasuredValue.argtypes = [
@@ -7302,10 +9897,18 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_RelativeHumidityMeasurement_MinMeasuredValue.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_RelativeHumidityMeasurement_MinMeasuredValue.restype = ctypes.c_uint32
+        # Cluster RelativeHumidityMeasurement SubscribeAttribute MinMeasuredValue
+        self._chipLib.chip_ime_SubscribeAttribute_RelativeHumidityMeasurement_MinMeasuredValue.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_RelativeHumidityMeasurement_MinMeasuredValue.restype = ctypes.c_uint32
         # Cluster RelativeHumidityMeasurement ReadAttribute MaxMeasuredValue
         self._chipLib.chip_ime_ReadAttribute_RelativeHumidityMeasurement_MaxMeasuredValue.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_RelativeHumidityMeasurement_MaxMeasuredValue.restype = ctypes.c_uint32
+        # Cluster RelativeHumidityMeasurement SubscribeAttribute MaxMeasuredValue
+        self._chipLib.chip_ime_SubscribeAttribute_RelativeHumidityMeasurement_MaxMeasuredValue.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_RelativeHumidityMeasurement_MaxMeasuredValue.restype = ctypes.c_uint32
         # Cluster RelativeHumidityMeasurement ReadAttribute Tolerance
         self._chipLib.chip_ime_ReadAttribute_RelativeHumidityMeasurement_Tolerance.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -7318,31 +9921,59 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_RelativeHumidityMeasurement_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_RelativeHumidityMeasurement_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster RelativeHumidityMeasurement SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_RelativeHumidityMeasurement_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_RelativeHumidityMeasurement_ClusterRevision.restype = ctypes.c_uint32
         # Cluster Scenes
         # Cluster Scenes ReadAttribute SceneCount
         self._chipLib.chip_ime_ReadAttribute_Scenes_SceneCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Scenes_SceneCount.restype = ctypes.c_uint32
+        # Cluster Scenes SubscribeAttribute SceneCount
+        self._chipLib.chip_ime_SubscribeAttribute_Scenes_SceneCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Scenes_SceneCount.restype = ctypes.c_uint32
         # Cluster Scenes ReadAttribute CurrentScene
         self._chipLib.chip_ime_ReadAttribute_Scenes_CurrentScene.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Scenes_CurrentScene.restype = ctypes.c_uint32
+        # Cluster Scenes SubscribeAttribute CurrentScene
+        self._chipLib.chip_ime_SubscribeAttribute_Scenes_CurrentScene.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Scenes_CurrentScene.restype = ctypes.c_uint32
         # Cluster Scenes ReadAttribute CurrentGroup
         self._chipLib.chip_ime_ReadAttribute_Scenes_CurrentGroup.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Scenes_CurrentGroup.restype = ctypes.c_uint32
+        # Cluster Scenes SubscribeAttribute CurrentGroup
+        self._chipLib.chip_ime_SubscribeAttribute_Scenes_CurrentGroup.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Scenes_CurrentGroup.restype = ctypes.c_uint32
         # Cluster Scenes ReadAttribute SceneValid
         self._chipLib.chip_ime_ReadAttribute_Scenes_SceneValid.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Scenes_SceneValid.restype = ctypes.c_uint32
+        # Cluster Scenes SubscribeAttribute SceneValid
+        self._chipLib.chip_ime_SubscribeAttribute_Scenes_SceneValid.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Scenes_SceneValid.restype = ctypes.c_uint32
         # Cluster Scenes ReadAttribute NameSupport
         self._chipLib.chip_ime_ReadAttribute_Scenes_NameSupport.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Scenes_NameSupport.restype = ctypes.c_uint32
+        # Cluster Scenes SubscribeAttribute NameSupport
+        self._chipLib.chip_ime_SubscribeAttribute_Scenes_NameSupport.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Scenes_NameSupport.restype = ctypes.c_uint32
         # Cluster Scenes ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_Scenes_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Scenes_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster Scenes SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_Scenes_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Scenes_ClusterRevision.restype = ctypes.c_uint32
         # Cluster SoftwareDiagnostics
         # Cluster SoftwareDiagnostics ReadAttribute ThreadMetrics
         self._chipLib.chip_ime_ReadAttribute_SoftwareDiagnostics_ThreadMetrics.argtypes = [
@@ -7352,23 +9983,43 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_SoftwareDiagnostics_CurrentHeapFree.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_SoftwareDiagnostics_CurrentHeapFree.restype = ctypes.c_uint32
+        # Cluster SoftwareDiagnostics SubscribeAttribute CurrentHeapFree
+        self._chipLib.chip_ime_SubscribeAttribute_SoftwareDiagnostics_CurrentHeapFree.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_SoftwareDiagnostics_CurrentHeapFree.restype = ctypes.c_uint32
         # Cluster SoftwareDiagnostics ReadAttribute CurrentHeapUsed
         self._chipLib.chip_ime_ReadAttribute_SoftwareDiagnostics_CurrentHeapUsed.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_SoftwareDiagnostics_CurrentHeapUsed.restype = ctypes.c_uint32
+        # Cluster SoftwareDiagnostics SubscribeAttribute CurrentHeapUsed
+        self._chipLib.chip_ime_SubscribeAttribute_SoftwareDiagnostics_CurrentHeapUsed.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_SoftwareDiagnostics_CurrentHeapUsed.restype = ctypes.c_uint32
         # Cluster SoftwareDiagnostics ReadAttribute CurrentHeapHighWatermark
         self._chipLib.chip_ime_ReadAttribute_SoftwareDiagnostics_CurrentHeapHighWatermark.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_SoftwareDiagnostics_CurrentHeapHighWatermark.restype = ctypes.c_uint32
+        # Cluster SoftwareDiagnostics SubscribeAttribute CurrentHeapHighWatermark
+        self._chipLib.chip_ime_SubscribeAttribute_SoftwareDiagnostics_CurrentHeapHighWatermark.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_SoftwareDiagnostics_CurrentHeapHighWatermark.restype = ctypes.c_uint32
         # Cluster SoftwareDiagnostics ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_SoftwareDiagnostics_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_SoftwareDiagnostics_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster SoftwareDiagnostics SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_SoftwareDiagnostics_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_SoftwareDiagnostics_ClusterRevision.restype = ctypes.c_uint32
         # Cluster Switch
         # Cluster Switch ReadAttribute NumberOfPositions
         self._chipLib.chip_ime_ReadAttribute_Switch_NumberOfPositions.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Switch_NumberOfPositions.restype = ctypes.c_uint32
+        # Cluster Switch SubscribeAttribute NumberOfPositions
+        self._chipLib.chip_ime_SubscribeAttribute_Switch_NumberOfPositions.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Switch_NumberOfPositions.restype = ctypes.c_uint32
         # Cluster Switch ReadAttribute CurrentPosition
         self._chipLib.chip_ime_ReadAttribute_Switch_CurrentPosition.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -7381,14 +10032,26 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_Switch_MultiPressMax.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Switch_MultiPressMax.restype = ctypes.c_uint32
+        # Cluster Switch SubscribeAttribute MultiPressMax
+        self._chipLib.chip_ime_SubscribeAttribute_Switch_MultiPressMax.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Switch_MultiPressMax.restype = ctypes.c_uint32
         # Cluster Switch ReadAttribute FeatureMap
         self._chipLib.chip_ime_ReadAttribute_Switch_FeatureMap.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Switch_FeatureMap.restype = ctypes.c_uint32
+        # Cluster Switch SubscribeAttribute FeatureMap
+        self._chipLib.chip_ime_SubscribeAttribute_Switch_FeatureMap.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Switch_FeatureMap.restype = ctypes.c_uint32
         # Cluster Switch ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_Switch_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Switch_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster Switch SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_Switch_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Switch_ClusterRevision.restype = ctypes.c_uint32
         # Cluster TvChannel
         # Cluster TvChannel ReadAttribute TvChannelList
         self._chipLib.chip_ime_ReadAttribute_TvChannel_TvChannelList.argtypes = [
@@ -7398,14 +10061,26 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_TvChannel_TvChannelLineup.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TvChannel_TvChannelLineup.restype = ctypes.c_uint32
+        # Cluster TvChannel SubscribeAttribute TvChannelLineup
+        self._chipLib.chip_ime_SubscribeAttribute_TvChannel_TvChannelLineup.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TvChannel_TvChannelLineup.restype = ctypes.c_uint32
         # Cluster TvChannel ReadAttribute CurrentTvChannel
         self._chipLib.chip_ime_ReadAttribute_TvChannel_CurrentTvChannel.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TvChannel_CurrentTvChannel.restype = ctypes.c_uint32
+        # Cluster TvChannel SubscribeAttribute CurrentTvChannel
+        self._chipLib.chip_ime_SubscribeAttribute_TvChannel_CurrentTvChannel.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TvChannel_CurrentTvChannel.restype = ctypes.c_uint32
         # Cluster TvChannel ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_TvChannel_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TvChannel_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster TvChannel SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_TvChannel_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TvChannel_ClusterRevision.restype = ctypes.c_uint32
         # Cluster TargetNavigator
         # Cluster TargetNavigator ReadAttribute TargetNavigatorList
         self._chipLib.chip_ime_ReadAttribute_TargetNavigator_TargetNavigatorList.argtypes = [
@@ -7415,6 +10090,10 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_TargetNavigator_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TargetNavigator_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster TargetNavigator SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_TargetNavigator_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TargetNavigator_ClusterRevision.restype = ctypes.c_uint32
         # Cluster TemperatureMeasurement
         # Cluster TemperatureMeasurement ReadAttribute MeasuredValue
         self._chipLib.chip_ime_ReadAttribute_TemperatureMeasurement_MeasuredValue.argtypes = [
@@ -7428,10 +10107,18 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_TemperatureMeasurement_MinMeasuredValue.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TemperatureMeasurement_MinMeasuredValue.restype = ctypes.c_uint32
+        # Cluster TemperatureMeasurement SubscribeAttribute MinMeasuredValue
+        self._chipLib.chip_ime_SubscribeAttribute_TemperatureMeasurement_MinMeasuredValue.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TemperatureMeasurement_MinMeasuredValue.restype = ctypes.c_uint32
         # Cluster TemperatureMeasurement ReadAttribute MaxMeasuredValue
         self._chipLib.chip_ime_ReadAttribute_TemperatureMeasurement_MaxMeasuredValue.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TemperatureMeasurement_MaxMeasuredValue.restype = ctypes.c_uint32
+        # Cluster TemperatureMeasurement SubscribeAttribute MaxMeasuredValue
+        self._chipLib.chip_ime_SubscribeAttribute_TemperatureMeasurement_MaxMeasuredValue.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TemperatureMeasurement_MaxMeasuredValue.restype = ctypes.c_uint32
         # Cluster TemperatureMeasurement ReadAttribute Tolerance
         self._chipLib.chip_ime_ReadAttribute_TemperatureMeasurement_Tolerance.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -7444,71 +10131,139 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_TemperatureMeasurement_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TemperatureMeasurement_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster TemperatureMeasurement SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_TemperatureMeasurement_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TemperatureMeasurement_ClusterRevision.restype = ctypes.c_uint32
         # Cluster TestCluster
         # Cluster TestCluster ReadAttribute Boolean
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Boolean.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Boolean.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute Boolean
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Boolean.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Boolean.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute Bitmap8
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Bitmap8.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Bitmap8.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute Bitmap8
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Bitmap8.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Bitmap8.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute Bitmap16
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Bitmap16.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Bitmap16.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute Bitmap16
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Bitmap16.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Bitmap16.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute Bitmap32
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Bitmap32.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Bitmap32.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute Bitmap32
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Bitmap32.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Bitmap32.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute Bitmap64
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Bitmap64.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Bitmap64.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute Bitmap64
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Bitmap64.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Bitmap64.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute Int8u
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Int8u.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Int8u.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute Int8u
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int8u.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int8u.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute Int16u
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Int16u.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Int16u.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute Int16u
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int16u.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int16u.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute Int32u
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Int32u.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Int32u.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute Int32u
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int32u.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int32u.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute Int64u
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Int64u.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Int64u.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute Int64u
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int64u.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int64u.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute Int8s
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Int8s.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Int8s.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute Int8s
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int8s.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int8s.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute Int16s
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Int16s.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Int16s.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute Int16s
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int16s.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int16s.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute Int32s
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Int32s.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Int32s.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute Int32s
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int32s.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int32s.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute Int64s
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Int64s.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Int64s.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute Int64s
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int64s.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Int64s.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute Enum8
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Enum8.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Enum8.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute Enum8
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Enum8.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Enum8.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute Enum16
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Enum16.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Enum16.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute Enum16
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Enum16.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Enum16.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute OctetString
         self._chipLib.chip_ime_ReadAttribute_TestCluster_OctetString.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_OctetString.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute OctetString
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_OctetString.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_OctetString.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute ListInt8u
         self._chipLib.chip_ime_ReadAttribute_TestCluster_ListInt8u.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -7525,26 +10280,50 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_TestCluster_LongOctetString.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_LongOctetString.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute LongOctetString
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_LongOctetString.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_LongOctetString.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute CharString
         self._chipLib.chip_ime_ReadAttribute_TestCluster_CharString.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_CharString.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute CharString
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_CharString.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_CharString.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute LongCharString
         self._chipLib.chip_ime_ReadAttribute_TestCluster_LongCharString.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_LongCharString.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute LongCharString
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_LongCharString.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_LongCharString.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute EpochUs
         self._chipLib.chip_ime_ReadAttribute_TestCluster_EpochUs.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_EpochUs.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute EpochUs
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_EpochUs.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_EpochUs.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute EpochS
         self._chipLib.chip_ime_ReadAttribute_TestCluster_EpochS.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_EpochS.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute EpochS
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_EpochS.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_EpochS.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute VendorId
         self._chipLib.chip_ime_ReadAttribute_TestCluster_VendorId.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_VendorId.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute VendorId
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_VendorId.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_VendorId.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute ListNullablesAndOptionalsStruct
         self._chipLib.chip_ime_ReadAttribute_TestCluster_ListNullablesAndOptionalsStruct.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -7553,78 +10332,154 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Unsupported.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_Unsupported.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute Unsupported
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Unsupported.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_Unsupported.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute NullableBoolean
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableBoolean.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableBoolean.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute NullableBoolean
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableBoolean.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableBoolean.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute NullableBitmap8
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableBitmap8.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableBitmap8.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute NullableBitmap8
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableBitmap8.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableBitmap8.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute NullableBitmap16
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableBitmap16.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableBitmap16.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute NullableBitmap16
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableBitmap16.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableBitmap16.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute NullableBitmap32
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableBitmap32.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableBitmap32.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute NullableBitmap32
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableBitmap32.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableBitmap32.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute NullableBitmap64
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableBitmap64.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableBitmap64.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute NullableBitmap64
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableBitmap64.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableBitmap64.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute NullableInt8u
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt8u.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt8u.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute NullableInt8u
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt8u.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt8u.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute NullableInt16u
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt16u.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt16u.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute NullableInt16u
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt16u.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt16u.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute NullableInt32u
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt32u.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt32u.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute NullableInt32u
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt32u.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt32u.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute NullableInt64u
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt64u.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt64u.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute NullableInt64u
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt64u.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt64u.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute NullableInt8s
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt8s.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt8s.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute NullableInt8s
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt8s.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt8s.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute NullableInt16s
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt16s.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt16s.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute NullableInt16s
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt16s.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt16s.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute NullableInt32s
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt32s.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt32s.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute NullableInt32s
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt32s.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt32s.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute NullableInt64s
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt64s.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableInt64s.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute NullableInt64s
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt64s.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableInt64s.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute NullableEnum8
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableEnum8.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableEnum8.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute NullableEnum8
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableEnum8.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableEnum8.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute NullableEnum16
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableEnum16.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableEnum16.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute NullableEnum16
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableEnum16.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableEnum16.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute NullableOctetString
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableOctetString.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableOctetString.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute NullableOctetString
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableOctetString.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableOctetString.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute NullableCharString
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableCharString.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_NullableCharString.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute NullableCharString
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableCharString.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_NullableCharString.restype = ctypes.c_uint32
         # Cluster TestCluster ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_TestCluster_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_TestCluster_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster TestCluster SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_TestCluster_ClusterRevision.restype = ctypes.c_uint32
         # Cluster Thermostat
         # Cluster Thermostat ReadAttribute LocalTemperature
         self._chipLib.chip_ime_ReadAttribute_Thermostat_LocalTemperature.argtypes = [
@@ -7638,120 +10493,236 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_Thermostat_AbsMinHeatSetpointLimit.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Thermostat_AbsMinHeatSetpointLimit.restype = ctypes.c_uint32
+        # Cluster Thermostat SubscribeAttribute AbsMinHeatSetpointLimit
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_AbsMinHeatSetpointLimit.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_AbsMinHeatSetpointLimit.restype = ctypes.c_uint32
         # Cluster Thermostat ReadAttribute AbsMaxHeatSetpointLimit
         self._chipLib.chip_ime_ReadAttribute_Thermostat_AbsMaxHeatSetpointLimit.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Thermostat_AbsMaxHeatSetpointLimit.restype = ctypes.c_uint32
+        # Cluster Thermostat SubscribeAttribute AbsMaxHeatSetpointLimit
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_AbsMaxHeatSetpointLimit.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_AbsMaxHeatSetpointLimit.restype = ctypes.c_uint32
         # Cluster Thermostat ReadAttribute AbsMinCoolSetpointLimit
         self._chipLib.chip_ime_ReadAttribute_Thermostat_AbsMinCoolSetpointLimit.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Thermostat_AbsMinCoolSetpointLimit.restype = ctypes.c_uint32
+        # Cluster Thermostat SubscribeAttribute AbsMinCoolSetpointLimit
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_AbsMinCoolSetpointLimit.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_AbsMinCoolSetpointLimit.restype = ctypes.c_uint32
         # Cluster Thermostat ReadAttribute AbsMaxCoolSetpointLimit
         self._chipLib.chip_ime_ReadAttribute_Thermostat_AbsMaxCoolSetpointLimit.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Thermostat_AbsMaxCoolSetpointLimit.restype = ctypes.c_uint32
+        # Cluster Thermostat SubscribeAttribute AbsMaxCoolSetpointLimit
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_AbsMaxCoolSetpointLimit.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_AbsMaxCoolSetpointLimit.restype = ctypes.c_uint32
         # Cluster Thermostat ReadAttribute OccupiedCoolingSetpoint
         self._chipLib.chip_ime_ReadAttribute_Thermostat_OccupiedCoolingSetpoint.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Thermostat_OccupiedCoolingSetpoint.restype = ctypes.c_uint32
+        # Cluster Thermostat SubscribeAttribute OccupiedCoolingSetpoint
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_OccupiedCoolingSetpoint.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_OccupiedCoolingSetpoint.restype = ctypes.c_uint32
         # Cluster Thermostat ReadAttribute OccupiedHeatingSetpoint
         self._chipLib.chip_ime_ReadAttribute_Thermostat_OccupiedHeatingSetpoint.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Thermostat_OccupiedHeatingSetpoint.restype = ctypes.c_uint32
+        # Cluster Thermostat SubscribeAttribute OccupiedHeatingSetpoint
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_OccupiedHeatingSetpoint.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_OccupiedHeatingSetpoint.restype = ctypes.c_uint32
         # Cluster Thermostat ReadAttribute MinHeatSetpointLimit
         self._chipLib.chip_ime_ReadAttribute_Thermostat_MinHeatSetpointLimit.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Thermostat_MinHeatSetpointLimit.restype = ctypes.c_uint32
+        # Cluster Thermostat SubscribeAttribute MinHeatSetpointLimit
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_MinHeatSetpointLimit.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_MinHeatSetpointLimit.restype = ctypes.c_uint32
         # Cluster Thermostat ReadAttribute MaxHeatSetpointLimit
         self._chipLib.chip_ime_ReadAttribute_Thermostat_MaxHeatSetpointLimit.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Thermostat_MaxHeatSetpointLimit.restype = ctypes.c_uint32
+        # Cluster Thermostat SubscribeAttribute MaxHeatSetpointLimit
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_MaxHeatSetpointLimit.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_MaxHeatSetpointLimit.restype = ctypes.c_uint32
         # Cluster Thermostat ReadAttribute MinCoolSetpointLimit
         self._chipLib.chip_ime_ReadAttribute_Thermostat_MinCoolSetpointLimit.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Thermostat_MinCoolSetpointLimit.restype = ctypes.c_uint32
+        # Cluster Thermostat SubscribeAttribute MinCoolSetpointLimit
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_MinCoolSetpointLimit.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_MinCoolSetpointLimit.restype = ctypes.c_uint32
         # Cluster Thermostat ReadAttribute MaxCoolSetpointLimit
         self._chipLib.chip_ime_ReadAttribute_Thermostat_MaxCoolSetpointLimit.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Thermostat_MaxCoolSetpointLimit.restype = ctypes.c_uint32
+        # Cluster Thermostat SubscribeAttribute MaxCoolSetpointLimit
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_MaxCoolSetpointLimit.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_MaxCoolSetpointLimit.restype = ctypes.c_uint32
         # Cluster Thermostat ReadAttribute MinSetpointDeadBand
         self._chipLib.chip_ime_ReadAttribute_Thermostat_MinSetpointDeadBand.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Thermostat_MinSetpointDeadBand.restype = ctypes.c_uint32
+        # Cluster Thermostat SubscribeAttribute MinSetpointDeadBand
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_MinSetpointDeadBand.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_MinSetpointDeadBand.restype = ctypes.c_uint32
         # Cluster Thermostat ReadAttribute ControlSequenceOfOperation
         self._chipLib.chip_ime_ReadAttribute_Thermostat_ControlSequenceOfOperation.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Thermostat_ControlSequenceOfOperation.restype = ctypes.c_uint32
+        # Cluster Thermostat SubscribeAttribute ControlSequenceOfOperation
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_ControlSequenceOfOperation.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_ControlSequenceOfOperation.restype = ctypes.c_uint32
         # Cluster Thermostat ReadAttribute SystemMode
         self._chipLib.chip_ime_ReadAttribute_Thermostat_SystemMode.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Thermostat_SystemMode.restype = ctypes.c_uint32
+        # Cluster Thermostat SubscribeAttribute SystemMode
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_SystemMode.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_SystemMode.restype = ctypes.c_uint32
         # Cluster Thermostat ReadAttribute StartOfWeek
         self._chipLib.chip_ime_ReadAttribute_Thermostat_StartOfWeek.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Thermostat_StartOfWeek.restype = ctypes.c_uint32
+        # Cluster Thermostat SubscribeAttribute StartOfWeek
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_StartOfWeek.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_StartOfWeek.restype = ctypes.c_uint32
         # Cluster Thermostat ReadAttribute NumberOfWeeklyTransitions
         self._chipLib.chip_ime_ReadAttribute_Thermostat_NumberOfWeeklyTransitions.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Thermostat_NumberOfWeeklyTransitions.restype = ctypes.c_uint32
+        # Cluster Thermostat SubscribeAttribute NumberOfWeeklyTransitions
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_NumberOfWeeklyTransitions.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_NumberOfWeeklyTransitions.restype = ctypes.c_uint32
         # Cluster Thermostat ReadAttribute NumberOfDailyTransitions
         self._chipLib.chip_ime_ReadAttribute_Thermostat_NumberOfDailyTransitions.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Thermostat_NumberOfDailyTransitions.restype = ctypes.c_uint32
+        # Cluster Thermostat SubscribeAttribute NumberOfDailyTransitions
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_NumberOfDailyTransitions.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_NumberOfDailyTransitions.restype = ctypes.c_uint32
         # Cluster Thermostat ReadAttribute FeatureMap
         self._chipLib.chip_ime_ReadAttribute_Thermostat_FeatureMap.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Thermostat_FeatureMap.restype = ctypes.c_uint32
+        # Cluster Thermostat SubscribeAttribute FeatureMap
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_FeatureMap.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_FeatureMap.restype = ctypes.c_uint32
         # Cluster Thermostat ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_Thermostat_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_Thermostat_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster Thermostat SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_Thermostat_ClusterRevision.restype = ctypes.c_uint32
         # Cluster ThermostatUserInterfaceConfiguration
         # Cluster ThermostatUserInterfaceConfiguration ReadAttribute TemperatureDisplayMode
         self._chipLib.chip_ime_ReadAttribute_ThermostatUserInterfaceConfiguration_TemperatureDisplayMode.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThermostatUserInterfaceConfiguration_TemperatureDisplayMode.restype = ctypes.c_uint32
+        # Cluster ThermostatUserInterfaceConfiguration SubscribeAttribute TemperatureDisplayMode
+        self._chipLib.chip_ime_SubscribeAttribute_ThermostatUserInterfaceConfiguration_TemperatureDisplayMode.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThermostatUserInterfaceConfiguration_TemperatureDisplayMode.restype = ctypes.c_uint32
         # Cluster ThermostatUserInterfaceConfiguration ReadAttribute KeypadLockout
         self._chipLib.chip_ime_ReadAttribute_ThermostatUserInterfaceConfiguration_KeypadLockout.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThermostatUserInterfaceConfiguration_KeypadLockout.restype = ctypes.c_uint32
+        # Cluster ThermostatUserInterfaceConfiguration SubscribeAttribute KeypadLockout
+        self._chipLib.chip_ime_SubscribeAttribute_ThermostatUserInterfaceConfiguration_KeypadLockout.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThermostatUserInterfaceConfiguration_KeypadLockout.restype = ctypes.c_uint32
         # Cluster ThermostatUserInterfaceConfiguration ReadAttribute ScheduleProgrammingVisibility
         self._chipLib.chip_ime_ReadAttribute_ThermostatUserInterfaceConfiguration_ScheduleProgrammingVisibility.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThermostatUserInterfaceConfiguration_ScheduleProgrammingVisibility.restype = ctypes.c_uint32
+        # Cluster ThermostatUserInterfaceConfiguration SubscribeAttribute ScheduleProgrammingVisibility
+        self._chipLib.chip_ime_SubscribeAttribute_ThermostatUserInterfaceConfiguration_ScheduleProgrammingVisibility.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThermostatUserInterfaceConfiguration_ScheduleProgrammingVisibility.restype = ctypes.c_uint32
         # Cluster ThermostatUserInterfaceConfiguration ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_ThermostatUserInterfaceConfiguration_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThermostatUserInterfaceConfiguration_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster ThermostatUserInterfaceConfiguration SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_ThermostatUserInterfaceConfiguration_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThermostatUserInterfaceConfiguration_ClusterRevision.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics
         # Cluster ThreadNetworkDiagnostics ReadAttribute Channel
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Channel.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Channel.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute Channel
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_Channel.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_Channel.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute RoutingRole
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RoutingRole.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RoutingRole.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute RoutingRole
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RoutingRole.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RoutingRole.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute NetworkName
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_NetworkName.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_NetworkName.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute NetworkName
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_NetworkName.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_NetworkName.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute PanId
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_PanId.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_PanId.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute PanId
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_PanId.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_PanId.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute ExtendedPanId
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ExtendedPanId.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ExtendedPanId.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute ExtendedPanId
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ExtendedPanId.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ExtendedPanId.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute MeshLocalPrefix
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_MeshLocalPrefix.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_MeshLocalPrefix.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute MeshLocalPrefix
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_MeshLocalPrefix.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_MeshLocalPrefix.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute OverrunCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_OverrunCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_OverrunCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute OverrunCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_OverrunCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_OverrunCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute NeighborTableList
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_NeighborTableList.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -7764,202 +10735,402 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_PartitionId.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_PartitionId.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute PartitionId
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_PartitionId.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_PartitionId.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute Weighting
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Weighting.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Weighting.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute Weighting
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_Weighting.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_Weighting.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute DataVersion
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_DataVersion.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_DataVersion.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute DataVersion
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_DataVersion.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_DataVersion.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute StableDataVersion
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_StableDataVersion.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_StableDataVersion.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute StableDataVersion
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_StableDataVersion.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_StableDataVersion.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute LeaderRouterId
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_LeaderRouterId.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_LeaderRouterId.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute LeaderRouterId
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_LeaderRouterId.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_LeaderRouterId.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute DetachedRoleCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_DetachedRoleCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_DetachedRoleCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute DetachedRoleCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_DetachedRoleCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_DetachedRoleCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute ChildRoleCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ChildRoleCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ChildRoleCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute ChildRoleCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ChildRoleCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ChildRoleCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute RouterRoleCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RouterRoleCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RouterRoleCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute RouterRoleCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RouterRoleCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RouterRoleCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute LeaderRoleCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_LeaderRoleCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_LeaderRoleCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute LeaderRoleCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_LeaderRoleCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_LeaderRoleCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute AttachAttemptCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_AttachAttemptCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_AttachAttemptCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute AttachAttemptCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_AttachAttemptCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_AttachAttemptCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute PartitionIdChangeCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_PartitionIdChangeCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_PartitionIdChangeCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute PartitionIdChangeCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_PartitionIdChangeCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_PartitionIdChangeCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute BetterPartitionAttachAttemptCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_BetterPartitionAttachAttemptCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_BetterPartitionAttachAttemptCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute BetterPartitionAttachAttemptCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_BetterPartitionAttachAttemptCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_BetterPartitionAttachAttemptCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute ParentChangeCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ParentChangeCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ParentChangeCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute ParentChangeCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ParentChangeCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ParentChangeCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute TxTotalCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxTotalCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxTotalCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute TxTotalCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxTotalCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxTotalCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute TxUnicastCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxUnicastCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxUnicastCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute TxUnicastCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxUnicastCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxUnicastCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute TxBroadcastCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxBroadcastCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxBroadcastCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute TxBroadcastCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxBroadcastCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxBroadcastCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute TxAckRequestedCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxAckRequestedCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxAckRequestedCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute TxAckRequestedCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxAckRequestedCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxAckRequestedCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute TxAckedCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxAckedCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxAckedCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute TxAckedCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxAckedCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxAckedCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute TxNoAckRequestedCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxNoAckRequestedCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxNoAckRequestedCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute TxNoAckRequestedCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxNoAckRequestedCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxNoAckRequestedCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute TxDataCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxDataCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxDataCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute TxDataCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxDataCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxDataCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute TxDataPollCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxDataPollCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxDataPollCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute TxDataPollCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxDataPollCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxDataPollCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute TxBeaconCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxBeaconCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxBeaconCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute TxBeaconCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxBeaconCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxBeaconCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute TxBeaconRequestCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxBeaconRequestCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxBeaconRequestCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute TxBeaconRequestCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxBeaconRequestCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxBeaconRequestCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute TxOtherCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxOtherCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxOtherCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute TxOtherCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxOtherCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxOtherCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute TxRetryCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxRetryCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxRetryCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute TxRetryCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxRetryCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxRetryCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute TxDirectMaxRetryExpiryCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxDirectMaxRetryExpiryCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxDirectMaxRetryExpiryCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute TxDirectMaxRetryExpiryCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxDirectMaxRetryExpiryCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxDirectMaxRetryExpiryCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute TxIndirectMaxRetryExpiryCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxIndirectMaxRetryExpiryCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxIndirectMaxRetryExpiryCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute TxIndirectMaxRetryExpiryCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxIndirectMaxRetryExpiryCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxIndirectMaxRetryExpiryCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute TxErrCcaCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxErrCcaCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxErrCcaCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute TxErrCcaCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxErrCcaCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxErrCcaCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute TxErrAbortCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxErrAbortCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxErrAbortCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute TxErrAbortCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxErrAbortCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxErrAbortCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute TxErrBusyChannelCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxErrBusyChannelCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_TxErrBusyChannelCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute TxErrBusyChannelCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxErrBusyChannelCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_TxErrBusyChannelCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute RxTotalCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxTotalCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxTotalCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute RxTotalCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxTotalCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxTotalCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute RxUnicastCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxUnicastCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxUnicastCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute RxUnicastCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxUnicastCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxUnicastCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute RxBroadcastCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxBroadcastCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxBroadcastCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute RxBroadcastCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxBroadcastCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxBroadcastCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute RxDataCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxDataCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxDataCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute RxDataCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxDataCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxDataCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute RxDataPollCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxDataPollCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxDataPollCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute RxDataPollCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxDataPollCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxDataPollCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute RxBeaconCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxBeaconCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxBeaconCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute RxBeaconCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxBeaconCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxBeaconCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute RxBeaconRequestCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxBeaconRequestCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxBeaconRequestCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute RxBeaconRequestCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxBeaconRequestCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxBeaconRequestCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute RxOtherCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxOtherCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxOtherCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute RxOtherCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxOtherCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxOtherCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute RxAddressFilteredCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxAddressFilteredCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxAddressFilteredCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute RxAddressFilteredCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxAddressFilteredCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxAddressFilteredCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute RxDestAddrFilteredCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxDestAddrFilteredCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxDestAddrFilteredCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute RxDestAddrFilteredCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxDestAddrFilteredCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxDestAddrFilteredCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute RxDuplicatedCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxDuplicatedCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxDuplicatedCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute RxDuplicatedCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxDuplicatedCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxDuplicatedCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute RxErrNoFrameCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrNoFrameCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrNoFrameCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute RxErrNoFrameCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrNoFrameCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrNoFrameCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute RxErrUnknownNeighborCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrUnknownNeighborCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrUnknownNeighborCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute RxErrUnknownNeighborCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrUnknownNeighborCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrUnknownNeighborCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute RxErrInvalidSrcAddrCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrInvalidSrcAddrCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrInvalidSrcAddrCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute RxErrInvalidSrcAddrCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrInvalidSrcAddrCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrInvalidSrcAddrCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute RxErrSecCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrSecCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrSecCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute RxErrSecCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrSecCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrSecCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute RxErrFcsCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrFcsCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrFcsCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute RxErrFcsCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrFcsCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrFcsCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute RxErrOtherCount
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrOtherCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_RxErrOtherCount.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute RxErrOtherCount
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrOtherCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_RxErrOtherCount.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute ActiveTimestamp
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ActiveTimestamp.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ActiveTimestamp.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute ActiveTimestamp
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ActiveTimestamp.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ActiveTimestamp.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute PendingTimestamp
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_PendingTimestamp.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_PendingTimestamp.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute PendingTimestamp
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_PendingTimestamp.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_PendingTimestamp.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute Delay
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Delay.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_Delay.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute Delay
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_Delay.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_Delay.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute SecurityPolicy
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_SecurityPolicy.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -7968,6 +11139,10 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ChannelMask.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ChannelMask.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute ChannelMask
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ChannelMask.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ChannelMask.restype = ctypes.c_uint32
         # Cluster ThreadNetworkDiagnostics ReadAttribute OperationalDatasetComponents
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_OperationalDatasetComponents.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -7980,89 +11155,173 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_ThreadNetworkDiagnostics_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster ThreadNetworkDiagnostics SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_ThreadNetworkDiagnostics_ClusterRevision.restype = ctypes.c_uint32
         # Cluster WakeOnLan
         # Cluster WakeOnLan ReadAttribute WakeOnLanMacAddress
         self._chipLib.chip_ime_ReadAttribute_WakeOnLan_WakeOnLanMacAddress.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WakeOnLan_WakeOnLanMacAddress.restype = ctypes.c_uint32
+        # Cluster WakeOnLan SubscribeAttribute WakeOnLanMacAddress
+        self._chipLib.chip_ime_SubscribeAttribute_WakeOnLan_WakeOnLanMacAddress.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WakeOnLan_WakeOnLanMacAddress.restype = ctypes.c_uint32
         # Cluster WakeOnLan ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_WakeOnLan_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WakeOnLan_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster WakeOnLan SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_WakeOnLan_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WakeOnLan_ClusterRevision.restype = ctypes.c_uint32
         # Cluster WiFiNetworkDiagnostics
         # Cluster WiFiNetworkDiagnostics ReadAttribute Bssid
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Bssid.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Bssid.restype = ctypes.c_uint32
+        # Cluster WiFiNetworkDiagnostics SubscribeAttribute Bssid
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_Bssid.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_Bssid.restype = ctypes.c_uint32
         # Cluster WiFiNetworkDiagnostics ReadAttribute SecurityType
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_SecurityType.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_SecurityType.restype = ctypes.c_uint32
+        # Cluster WiFiNetworkDiagnostics SubscribeAttribute SecurityType
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_SecurityType.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_SecurityType.restype = ctypes.c_uint32
         # Cluster WiFiNetworkDiagnostics ReadAttribute WiFiVersion
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_WiFiVersion.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_WiFiVersion.restype = ctypes.c_uint32
+        # Cluster WiFiNetworkDiagnostics SubscribeAttribute WiFiVersion
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_WiFiVersion.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_WiFiVersion.restype = ctypes.c_uint32
         # Cluster WiFiNetworkDiagnostics ReadAttribute ChannelNumber
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_ChannelNumber.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_ChannelNumber.restype = ctypes.c_uint32
+        # Cluster WiFiNetworkDiagnostics SubscribeAttribute ChannelNumber
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_ChannelNumber.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_ChannelNumber.restype = ctypes.c_uint32
         # Cluster WiFiNetworkDiagnostics ReadAttribute Rssi
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Rssi.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_Rssi.restype = ctypes.c_uint32
+        # Cluster WiFiNetworkDiagnostics SubscribeAttribute Rssi
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_Rssi.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_Rssi.restype = ctypes.c_uint32
         # Cluster WiFiNetworkDiagnostics ReadAttribute BeaconLostCount
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_BeaconLostCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_BeaconLostCount.restype = ctypes.c_uint32
+        # Cluster WiFiNetworkDiagnostics SubscribeAttribute BeaconLostCount
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_BeaconLostCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_BeaconLostCount.restype = ctypes.c_uint32
         # Cluster WiFiNetworkDiagnostics ReadAttribute BeaconRxCount
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_BeaconRxCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_BeaconRxCount.restype = ctypes.c_uint32
+        # Cluster WiFiNetworkDiagnostics SubscribeAttribute BeaconRxCount
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_BeaconRxCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_BeaconRxCount.restype = ctypes.c_uint32
         # Cluster WiFiNetworkDiagnostics ReadAttribute PacketMulticastRxCount
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_PacketMulticastRxCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_PacketMulticastRxCount.restype = ctypes.c_uint32
+        # Cluster WiFiNetworkDiagnostics SubscribeAttribute PacketMulticastRxCount
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_PacketMulticastRxCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_PacketMulticastRxCount.restype = ctypes.c_uint32
         # Cluster WiFiNetworkDiagnostics ReadAttribute PacketMulticastTxCount
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_PacketMulticastTxCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_PacketMulticastTxCount.restype = ctypes.c_uint32
+        # Cluster WiFiNetworkDiagnostics SubscribeAttribute PacketMulticastTxCount
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_PacketMulticastTxCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_PacketMulticastTxCount.restype = ctypes.c_uint32
         # Cluster WiFiNetworkDiagnostics ReadAttribute PacketUnicastRxCount
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_PacketUnicastRxCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_PacketUnicastRxCount.restype = ctypes.c_uint32
+        # Cluster WiFiNetworkDiagnostics SubscribeAttribute PacketUnicastRxCount
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_PacketUnicastRxCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_PacketUnicastRxCount.restype = ctypes.c_uint32
         # Cluster WiFiNetworkDiagnostics ReadAttribute PacketUnicastTxCount
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_PacketUnicastTxCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_PacketUnicastTxCount.restype = ctypes.c_uint32
+        # Cluster WiFiNetworkDiagnostics SubscribeAttribute PacketUnicastTxCount
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_PacketUnicastTxCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_PacketUnicastTxCount.restype = ctypes.c_uint32
         # Cluster WiFiNetworkDiagnostics ReadAttribute CurrentMaxRate
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_CurrentMaxRate.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_CurrentMaxRate.restype = ctypes.c_uint32
+        # Cluster WiFiNetworkDiagnostics SubscribeAttribute CurrentMaxRate
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_CurrentMaxRate.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_CurrentMaxRate.restype = ctypes.c_uint32
         # Cluster WiFiNetworkDiagnostics ReadAttribute OverrunCount
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_OverrunCount.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_OverrunCount.restype = ctypes.c_uint32
+        # Cluster WiFiNetworkDiagnostics SubscribeAttribute OverrunCount
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_OverrunCount.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_OverrunCount.restype = ctypes.c_uint32
         # Cluster WiFiNetworkDiagnostics ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WiFiNetworkDiagnostics_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster WiFiNetworkDiagnostics SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WiFiNetworkDiagnostics_ClusterRevision.restype = ctypes.c_uint32
         # Cluster WindowCovering
         # Cluster WindowCovering ReadAttribute Type
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_Type.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_Type.restype = ctypes.c_uint32
+        # Cluster WindowCovering SubscribeAttribute Type
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_Type.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_Type.restype = ctypes.c_uint32
         # Cluster WindowCovering ReadAttribute CurrentPositionLift
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_CurrentPositionLift.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_CurrentPositionLift.restype = ctypes.c_uint32
+        # Cluster WindowCovering SubscribeAttribute CurrentPositionLift
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_CurrentPositionLift.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_CurrentPositionLift.restype = ctypes.c_uint32
         # Cluster WindowCovering ReadAttribute CurrentPositionTilt
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_CurrentPositionTilt.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_CurrentPositionTilt.restype = ctypes.c_uint32
+        # Cluster WindowCovering SubscribeAttribute CurrentPositionTilt
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_CurrentPositionTilt.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_CurrentPositionTilt.restype = ctypes.c_uint32
         # Cluster WindowCovering ReadAttribute ConfigStatus
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_ConfigStatus.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_ConfigStatus.restype = ctypes.c_uint32
+        # Cluster WindowCovering SubscribeAttribute ConfigStatus
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_ConfigStatus.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_ConfigStatus.restype = ctypes.c_uint32
         # Cluster WindowCovering ReadAttribute CurrentPositionLiftPercentage
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_CurrentPositionLiftPercentage.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -8107,6 +11366,10 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_EndProductType.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_EndProductType.restype = ctypes.c_uint32
+        # Cluster WindowCovering SubscribeAttribute EndProductType
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_EndProductType.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_EndProductType.restype = ctypes.c_uint32
         # Cluster WindowCovering ReadAttribute CurrentPositionLiftPercent100ths
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_CurrentPositionLiftPercent100ths.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -8127,22 +11390,42 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_InstalledOpenLimitLift.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_InstalledOpenLimitLift.restype = ctypes.c_uint32
+        # Cluster WindowCovering SubscribeAttribute InstalledOpenLimitLift
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_InstalledOpenLimitLift.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_InstalledOpenLimitLift.restype = ctypes.c_uint32
         # Cluster WindowCovering ReadAttribute InstalledClosedLimitLift
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_InstalledClosedLimitLift.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_InstalledClosedLimitLift.restype = ctypes.c_uint32
+        # Cluster WindowCovering SubscribeAttribute InstalledClosedLimitLift
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_InstalledClosedLimitLift.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_InstalledClosedLimitLift.restype = ctypes.c_uint32
         # Cluster WindowCovering ReadAttribute InstalledOpenLimitTilt
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_InstalledOpenLimitTilt.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_InstalledOpenLimitTilt.restype = ctypes.c_uint32
+        # Cluster WindowCovering SubscribeAttribute InstalledOpenLimitTilt
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_InstalledOpenLimitTilt.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_InstalledOpenLimitTilt.restype = ctypes.c_uint32
         # Cluster WindowCovering ReadAttribute InstalledClosedLimitTilt
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_InstalledClosedLimitTilt.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_InstalledClosedLimitTilt.restype = ctypes.c_uint32
+        # Cluster WindowCovering SubscribeAttribute InstalledClosedLimitTilt
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_InstalledClosedLimitTilt.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_InstalledClosedLimitTilt.restype = ctypes.c_uint32
         # Cluster WindowCovering ReadAttribute Mode
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_Mode.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_Mode.restype = ctypes.c_uint32
+        # Cluster WindowCovering SubscribeAttribute Mode
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_Mode.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_Mode.restype = ctypes.c_uint32
         # Cluster WindowCovering ReadAttribute SafetyStatus
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_SafetyStatus.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
@@ -8155,10 +11438,18 @@ def InitLib(self, chipLib):
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_FeatureMap.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_FeatureMap.restype = ctypes.c_uint32
+        # Cluster WindowCovering SubscribeAttribute FeatureMap
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_FeatureMap.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_FeatureMap.restype = ctypes.c_uint32
         # Cluster WindowCovering ReadAttribute ClusterRevision
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_ClusterRevision.argtypes = [
             ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_WindowCovering_ClusterRevision.restype = ctypes.c_uint32
+        # Cluster WindowCovering SubscribeAttribute ClusterRevision
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_ClusterRevision.argtypes = [
+            ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
+        self._chipLib.chip_ime_SubscribeAttribute_WindowCovering_ClusterRevision.restype = ctypes.c_uint32
         # Init response delegates
 
         def HandleSuccess():
diff --git a/src/controller/python/templates/python-CHIPClusters-cpp.zapt b/src/controller/python/templates/python-CHIPClusters-cpp.zapt
index 1448acc3905adc..4fb2d50430cab3 100644
--- a/src/controller/python/templates/python-CHIPClusters-cpp.zapt
+++ b/src/controller/python/templates/python-CHIPClusters-cpp.zapt
@@ -224,6 +224,7 @@ chip::ChipError::StorageType chip_ime_ReadAttribute_{{asUpperCamelCase parent.na
 }
 
 {{#if isReportableAttribute}}
+{{#unless isList}}
 chip::ChipError::StorageType chip_ime_SubscribeAttribute_{{asUpperCamelCase parent.name}}_{{asUpperCamelCase name}}(chip::DeviceProxy * device, chip::EndpointId ZCLendpointId, uint16_t minInterval, uint16_t maxInterval)
 {
     VerifyOrReturnError(device != nullptr, CHIP_ERROR_INVALID_ARGUMENT.AsInteger());
@@ -236,6 +237,7 @@ chip::ChipError::StorageType chip_ime_SubscribeAttribute_{{asUpperCamelCase pare
     return cluster.SubscribeAttribute{{asUpperCamelCase name}}(g{{chipCallback.name}}AttributeCallback.Cancel(), gDefaultFailureCallback.Cancel(), minInterval, maxInterval).AsInteger();
 {{/if}}
 }
+{{/unless}}
 {{/if}}
 
 {{/chip_server_cluster_attributes}}
diff --git a/src/controller/python/templates/python-CHIPClusters-py.zapt b/src/controller/python/templates/python-CHIPClusters-py.zapt
index 8c7b7fb42edde3..e22568b10ba1e2 100644
--- a/src/controller/python/templates/python-CHIPClusters-py.zapt
+++ b/src/controller/python/templates/python-CHIPClusters-py.zapt
@@ -122,8 +122,10 @@ class ChipClusters:
     def Cluster{{asUpperCamelCase parent.name}}_ReadAttribute{{asUpperCamelCase name}}(self, device: ctypes.c_void_p, ZCLendpoint: int, ZCLgroupid: int):
         return self._chipLib.chip_ime_ReadAttribute_{{asUpperCamelCase parent.name}}_{{asUpperCamelCase name}}(device, ZCLendpoint, ZCLgroupid)
 {{#if isReportableAttribute}}
+{{#unless isList}}
     def Cluster{{asUpperCamelCase parent.name}}_SubscribeAttribute{{asUpperCamelCase name}}(self, device: ctypes.c_void_p, ZCLendpoint: int, minInterval: int, maxInterval: int):
         return self._chipLib.chip_ime_SubscribeAttribute_{{asUpperCamelCase parent.name}}_{{asUpperCamelCase name}}(device, ZCLendpoint, minInterval, maxInterval)
+{{/unless}}
 {{/if}}
 {{/chip_server_cluster_attributes}}
 {{/chip_client_clusters}}
@@ -144,9 +146,11 @@ class ChipClusters:
         self._chipLib.chip_ime_ReadAttribute_{{asUpperCamelCase parent.name}}_{{asUpperCamelCase name}}.argtypes = [ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16]
         self._chipLib.chip_ime_ReadAttribute_{{asUpperCamelCase parent.name}}_{{asUpperCamelCase name}}.restype = ctypes.c_uint32
 {{#if isReportableAttribute}}
+{{#unless isList}}
         # Cluster {{asUpperCamelCase parent.name}} SubscribeAttribute {{asUpperCamelCase name}}
         self._chipLib.chip_ime_SubscribeAttribute_{{asUpperCamelCase parent.name}}_{{asUpperCamelCase name}}.argtypes = [ctypes.c_void_p, ctypes.c_uint8, ctypes.c_uint16, ctypes.c_uint16]
         self._chipLib.chip_ime_SubscribeAttribute_{{asUpperCamelCase parent.name}}_{{asUpperCamelCase name}}.restype = ctypes.c_uint32
+{{/unless}}
 {{/if}}
 {{/chip_server_cluster_attributes}}
 {{/chip_client_clusters}}
diff --git a/src/darwin/Framework/CHIP/templates/CHIPClustersObjc-src.zapt b/src/darwin/Framework/CHIP/templates/CHIPClustersObjc-src.zapt
index d597900414d86f..e3e0e711e42793 100644
--- a/src/darwin/Framework/CHIP/templates/CHIPClustersObjc-src.zapt
+++ b/src/darwin/Framework/CHIP/templates/CHIPClustersObjc-src.zapt
@@ -71,6 +71,7 @@ using namespace chip::app::Clusters;
 
 {{/if}}
 {{#if isReportableAttribute}}
+{{#unless isList}}
 {{#*inline "callbackName"}}DefaultSuccess{{/inline}}
 {{#*inline "callbackParams"}}, minInterval, maxInterval{{#if isAnalog}}, change{{/if}}{{/inline}}
 - (void) subscribe{{>attribute}}WithMinInterval:(uint16_t)minInterval  maxInterval:(uint16_t)maxInterval responseHandler:(ResponseHandler)responseHandler
@@ -87,6 +88,7 @@ using namespace chip::app::Clusters;
     }, true);
 }
 
+{{/unless}}
 {{/if}}
 {{/chip_server_cluster_attributes}}
 
diff --git a/src/darwin/Framework/CHIP/templates/CHIPClustersObjc.zapt b/src/darwin/Framework/CHIP/templates/CHIPClustersObjc.zapt
index 20457cdc5bafc3..dcdabce4a71bd6 100644
--- a/src/darwin/Framework/CHIP/templates/CHIPClustersObjc.zapt
+++ b/src/darwin/Framework/CHIP/templates/CHIPClustersObjc.zapt
@@ -33,8 +33,10 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)write{{>attribute}}WithValue:({{asObjectiveCType type parent.name}})value responseHandler:(ResponseHandler)responseHandler;
 {{/if}}
 {{#if isReportableAttribute}}
+{{#unless isList}}
 - (void) subscribe{{>attribute}}WithMinInterval:(uint16_t)minInterval  maxInterval:(uint16_t)maxInterval responseHandler:(ResponseHandler)responseHandler;
 - (void) report{{>attribute}}WithResponseHandler:(ResponseHandler)responseHandler;
+{{/unless}}
 {{/if}}
 {{/chip_server_cluster_attributes}}
 
diff --git a/src/darwin/Framework/CHIP/zap-generated/CHIPClustersObjc.h b/src/darwin/Framework/CHIP/zap-generated/CHIPClustersObjc.h
index ba61949620f636..f5a34506000dc6 100644
--- a/src/darwin/Framework/CHIP/zap-generated/CHIPClustersObjc.h
+++ b/src/darwin/Framework/CHIP/zap-generated/CHIPClustersObjc.h
@@ -39,6 +39,10 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)login:(CHIPAccountLoginClusterLoginPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -56,6 +60,10 @@ NS_ASSUME_NONNULL_BEGIN
             responseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -69,20 +77,52 @@ NS_ASSUME_NONNULL_BEGIN
      responseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeVendorNameWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeVendorNameWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeVendorNameWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeVendorIdWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeVendorIdWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeVendorIdWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeApplicationNameWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeApplicationNameWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeApplicationNameWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeProductIdWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeProductIdWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeProductIdWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeApplicationIdWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeApplicationIdWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeApplicationIdWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCatalogVendorIdWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCatalogVendorIdWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCatalogVendorIdWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeApplicationStatusWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeApplicationStatusWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeApplicationStatusWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -98,10 +138,22 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)readAttributeApplicationLauncherListWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCatalogVendorIdWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCatalogVendorIdWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCatalogVendorIdWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeApplicationIdWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeApplicationIdWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeApplicationIdWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -117,8 +169,16 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)readAttributeAudioOutputListWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCurrentAudioOutputWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCurrentAudioOutputWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCurrentAudioOutputWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -134,14 +194,34 @@ NS_ASSUME_NONNULL_BEGIN
            responseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeBarrierMovingStateWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBarrierMovingStateWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBarrierMovingStateWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeBarrierSafetyStatusWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBarrierSafetyStatusWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBarrierSafetyStatusWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeBarrierCapabilitiesWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBarrierCapabilitiesWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBarrierCapabilitiesWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeBarrierPositionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBarrierPositionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBarrierPositionWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -154,45 +234,121 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)mfgSpecificPing:(CHIPBasicClusterMfgSpecificPingPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeInteractionModelVersionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeInteractionModelVersionWithMinInterval:(uint16_t)minInterval
+                                                     maxInterval:(uint16_t)maxInterval
+                                                 responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeInteractionModelVersionWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeVendorNameWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeVendorNameWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeVendorNameWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeVendorIDWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeVendorIDWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeVendorIDWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeProductNameWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeProductNameWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeProductNameWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeProductIDWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeProductIDWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeProductIDWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeUserLabelWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeUserLabelWithValue:(NSString * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeUserLabelWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeUserLabelWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeLocationWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeLocationWithValue:(NSString * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeLocationWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeLocationWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeHardwareVersionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeHardwareVersionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeHardwareVersionWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeHardwareVersionStringWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeHardwareVersionStringWithMinInterval:(uint16_t)minInterval
+                                                   maxInterval:(uint16_t)maxInterval
+                                               responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeHardwareVersionStringWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeSoftwareVersionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeSoftwareVersionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeSoftwareVersionWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeSoftwareVersionStringWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeSoftwareVersionStringWithMinInterval:(uint16_t)minInterval
+                                                   maxInterval:(uint16_t)maxInterval
+                                               responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeSoftwareVersionStringWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeManufacturingDateWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeManufacturingDateWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeManufacturingDateWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePartNumberWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePartNumberWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePartNumberWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeProductURLWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeProductURLWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeProductURLWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeProductLabelWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeProductLabelWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeProductLabelWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeSerialNumberWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeSerialNumberWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeSerialNumberWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeLocalConfigDisabledWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeLocalConfigDisabledWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeLocalConfigDisabledWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeLocalConfigDisabledWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeReachableWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeReachableWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeReachableWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -204,6 +360,10 @@ NS_ASSUME_NONNULL_BEGIN
 
 - (void)readAttributeOutOfServiceWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeOutOfServiceWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeOutOfServiceWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeOutOfServiceWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePresentValueWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributePresentValueWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
@@ -219,6 +379,10 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeStatusFlagsWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -232,6 +396,10 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)unbind:(CHIPBindingClusterUnbindPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -248,6 +416,10 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeStateValueWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -286,8 +458,16 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)readAttributeEndpointListWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeSetupUrlWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeSetupUrlWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeSetupUrlWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -298,6 +478,10 @@ NS_ASSUME_NONNULL_BEGIN
 @interface CHIPBridgedDeviceBasicInformation : CHIPCluster
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -353,6 +537,10 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeCurrentSaturationWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRemainingTimeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRemainingTimeWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRemainingTimeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCurrentXWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)subscribeAttributeCurrentXWithMinInterval:(uint16_t)minInterval
@@ -367,8 +555,16 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeCurrentYWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeDriftCompensationWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeDriftCompensationWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeDriftCompensationWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCompensationTextWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCompensationTextWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCompensationTextWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorTemperatureWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)subscribeAttributeColorTemperatureWithMinInterval:(uint16_t)minInterval
@@ -377,108 +573,288 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeColorTemperatureWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorModeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeColorModeWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeColorModeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorControlOptionsWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeColorControlOptionsWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeColorControlOptionsWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeColorControlOptionsWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNumberOfPrimariesWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNumberOfPrimariesWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNumberOfPrimariesWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePrimary1XWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePrimary1XWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePrimary1XWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePrimary1YWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePrimary1YWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePrimary1YWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePrimary1IntensityWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePrimary1IntensityWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePrimary1IntensityWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePrimary2XWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePrimary2XWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePrimary2XWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePrimary2YWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePrimary2YWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePrimary2YWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePrimary2IntensityWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePrimary2IntensityWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePrimary2IntensityWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePrimary3XWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePrimary3XWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePrimary3XWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePrimary3YWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePrimary3YWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePrimary3YWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePrimary3IntensityWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePrimary3IntensityWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePrimary3IntensityWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePrimary4XWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePrimary4XWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePrimary4XWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePrimary4YWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePrimary4YWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePrimary4YWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePrimary4IntensityWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePrimary4IntensityWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePrimary4IntensityWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePrimary5XWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePrimary5XWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePrimary5XWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePrimary5YWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePrimary5YWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePrimary5YWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePrimary5IntensityWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePrimary5IntensityWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePrimary5IntensityWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePrimary6XWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePrimary6XWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePrimary6XWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePrimary6YWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePrimary6YWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePrimary6YWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePrimary6IntensityWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePrimary6IntensityWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePrimary6IntensityWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeWhitePointXWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeWhitePointXWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeWhitePointXWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeWhitePointXWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeWhitePointYWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeWhitePointYWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeWhitePointYWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeWhitePointYWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorPointRXWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeColorPointRXWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeColorPointRXWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeColorPointRXWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorPointRYWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeColorPointRYWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeColorPointRYWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeColorPointRYWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorPointRIntensityWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeColorPointRIntensityWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeColorPointRIntensityWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeColorPointRIntensityWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorPointGXWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeColorPointGXWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeColorPointGXWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeColorPointGXWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorPointGYWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeColorPointGYWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeColorPointGYWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeColorPointGYWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorPointGIntensityWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeColorPointGIntensityWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeColorPointGIntensityWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeColorPointGIntensityWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorPointBXWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeColorPointBXWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeColorPointBXWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeColorPointBXWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorPointBYWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeColorPointBYWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeColorPointBYWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeColorPointBYWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorPointBIntensityWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeColorPointBIntensityWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeColorPointBIntensityWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeColorPointBIntensityWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeEnhancedCurrentHueWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeEnhancedCurrentHueWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeEnhancedCurrentHueWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeEnhancedColorModeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeEnhancedColorModeWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeEnhancedColorModeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorLoopActiveWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeColorLoopActiveWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeColorLoopActiveWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorLoopDirectionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeColorLoopDirectionWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeColorLoopDirectionWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorLoopTimeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeColorLoopTimeWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeColorLoopTimeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorLoopStartEnhancedHueWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeColorLoopStartEnhancedHueWithMinInterval:(uint16_t)minInterval
+                                                       maxInterval:(uint16_t)maxInterval
+                                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeColorLoopStartEnhancedHueWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorLoopStoredEnhancedHueWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeColorLoopStoredEnhancedHueWithMinInterval:(uint16_t)minInterval
+                                                        maxInterval:(uint16_t)maxInterval
+                                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeColorLoopStoredEnhancedHueWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorCapabilitiesWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeColorCapabilitiesWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeColorCapabilitiesWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorTempPhysicalMinWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeColorTempPhysicalMinWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeColorTempPhysicalMinWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeColorTempPhysicalMaxWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeColorTempPhysicalMaxWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeColorTempPhysicalMaxWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCoupleColorTempToLevelMinMiredsWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCoupleColorTempToLevelMinMiredsWithMinInterval:(uint16_t)minInterval
+                                                             maxInterval:(uint16_t)maxInterval
+                                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCoupleColorTempToLevelMinMiredsWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeStartUpColorTemperatureMiredsWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeStartUpColorTemperatureMiredsWithValue:(NSNumber * _Nonnull)value
                                              responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeStartUpColorTemperatureMiredsWithMinInterval:(uint16_t)minInterval
+                                                           maxInterval:(uint16_t)maxInterval
+                                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeStartUpColorTemperatureMiredsWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -497,6 +873,10 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)readAttributeSupportedStreamingTypesWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -515,6 +895,10 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)readAttributePartsListWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -576,10 +960,22 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeLockStateWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeLockTypeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeLockTypeWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeLockTypeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeActuatorEnabledWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeActuatorEnabledWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeActuatorEnabledWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -590,28 +986,76 @@ NS_ASSUME_NONNULL_BEGIN
 @interface CHIPElectricalMeasurement : CHIPCluster
 
 - (void)readAttributeMeasurementTypeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMeasurementTypeWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMeasurementTypeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTotalActivePowerWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTotalActivePowerWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTotalActivePowerWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRmsVoltageWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRmsVoltageWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRmsVoltageWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRmsVoltageMinWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRmsVoltageMinWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRmsVoltageMinWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRmsVoltageMaxWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRmsVoltageMaxWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRmsVoltageMaxWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRmsCurrentWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRmsCurrentWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRmsCurrentWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRmsCurrentMinWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRmsCurrentMinWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRmsCurrentMinWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRmsCurrentMaxWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRmsCurrentMaxWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRmsCurrentMaxWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeActivePowerWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeActivePowerWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeActivePowerWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeActivePowerMinWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeActivePowerMinWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeActivePowerMinWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeActivePowerMaxWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeActivePowerMaxWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeActivePowerMaxWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -625,24 +1069,64 @@ NS_ASSUME_NONNULL_BEGIN
     responseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePHYRateWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePHYRateWithMinInterval:(uint16_t)minInterval
+                                     maxInterval:(uint16_t)maxInterval
+                                 responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePHYRateWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeFullDuplexWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeFullDuplexWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeFullDuplexWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePacketRxCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePacketRxCountWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePacketRxCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePacketTxCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePacketTxCountWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePacketTxCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTxErrCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTxErrCountWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTxErrCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCollisionCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCollisionCountWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCollisionCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeOverrunCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeOverrunCountWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeOverrunCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCarrierDetectWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCarrierDetectWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCarrierDetectWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTimeSinceResetWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTimeSinceResetWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTimeSinceResetWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -655,6 +1139,10 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)readAttributeLabelListWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -665,14 +1153,34 @@ NS_ASSUME_NONNULL_BEGIN
 @interface CHIPFlowMeasurement : CHIPCluster
 
 - (void)readAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMinMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMaxMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeToleranceWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -691,10 +1199,18 @@ NS_ASSUME_NONNULL_BEGIN
 
 - (void)readAttributeBreadcrumbWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeBreadcrumbWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBreadcrumbWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBreadcrumbWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeBasicCommissioningInfoListWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -707,12 +1223,28 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)readAttributeNetworkInterfacesWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRebootCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRebootCountWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRebootCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeUpTimeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeUpTimeWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeUpTimeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTotalOperationalHoursWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTotalOperationalHoursWithMinInterval:(uint16_t)minInterval
+                                                   maxInterval:(uint16_t)maxInterval
+                                               responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTotalOperationalHoursWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeBootReasonsWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBootReasonsWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBootReasonsWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeActiveHardwareFaultsWithResponseHandler:(ResponseHandler)responseHandler;
 
@@ -721,6 +1253,10 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)readAttributeActiveNetworkFaultsWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -735,6 +1271,10 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)readAttributeGroupKeysWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -755,8 +1295,16 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)viewGroup:(CHIPGroupsClusterViewGroupPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNameSupportWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNameSupportWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNameSupportWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -772,10 +1320,22 @@ NS_ASSUME_NONNULL_BEGIN
 
 - (void)readAttributeIdentifyTimeWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeIdentifyTimeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeIdentifyTimeWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeIdentifyTimeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeIdentifyTypeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeIdentifyTypeWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeIdentifyTypeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -792,14 +1352,34 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMinMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMaxMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeToleranceWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeLightSensorTypeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeLightSensorTypeWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeLightSensorTypeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -812,6 +1392,10 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)sendKey:(CHIPKeypadInputClusterSendKeyPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -841,39 +1425,95 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeCurrentLevelWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRemainingTimeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRemainingTimeWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRemainingTimeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMinLevelWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMinLevelWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMinLevelWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMaxLevelWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMaxLevelWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMaxLevelWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCurrentFrequencyWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCurrentFrequencyWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCurrentFrequencyWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMinFrequencyWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMinFrequencyWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMinFrequencyWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMaxFrequencyWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMaxFrequencyWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMaxFrequencyWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeOptionsWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeOptionsWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeOptionsWithMinInterval:(uint16_t)minInterval
+                                     maxInterval:(uint16_t)maxInterval
+                                 responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeOptionsWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeOnOffTransitionTimeWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeOnOffTransitionTimeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeOnOffTransitionTimeWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeOnOffTransitionTimeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeOnLevelWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeOnLevelWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeOnLevelWithMinInterval:(uint16_t)minInterval
+                                     maxInterval:(uint16_t)maxInterval
+                                 responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeOnLevelWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeOnTransitionTimeWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeOnTransitionTimeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeOnTransitionTimeWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeOnTransitionTimeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeOffTransitionTimeWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeOffTransitionTimeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeOffTransitionTimeWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeOffTransitionTimeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeDefaultMoveRateWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeDefaultMoveRateWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeDefaultMoveRateWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeDefaultMoveRateWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeStartUpCurrentLevelWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeStartUpCurrentLevelWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeStartUpCurrentLevelWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeStartUpCurrentLevelWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -886,6 +1526,10 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)sleep:(CHIPLowPowerClusterSleepPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -905,8 +1549,16 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)readAttributeMediaInputListWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCurrentMediaInputWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCurrentMediaInputWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCurrentMediaInputWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -934,22 +1586,58 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)mediaStop:(CHIPMediaPlaybackClusterMediaStopPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePlaybackStateWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePlaybackStateWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePlaybackStateWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeStartTimeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeStartTimeWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeStartTimeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeDurationWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeDurationWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeDurationWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePositionUpdatedAtWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePositionUpdatedAtWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePositionUpdatedAtWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePositionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePositionWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePositionWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePlaybackSpeedWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePlaybackSpeedWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePlaybackSpeedWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeSeekRangeEndWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeSeekRangeEndWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeSeekRangeEndWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeSeekRangeStartWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeSeekRangeStartWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeSeekRangeStartWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -971,12 +1659,28 @@ NS_ASSUME_NONNULL_BEGIN
 
 - (void)readAttributeOnModeWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeOnModeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeOnModeWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeOnModeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeStartUpModeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeStartUpModeWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeStartUpModeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeDescriptionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeDescriptionWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeDescriptionWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1004,8 +1708,16 @@ NS_ASSUME_NONNULL_BEGIN
           responseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeFeatureMapWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1023,6 +1735,10 @@ NS_ASSUME_NONNULL_BEGIN
     responseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1037,10 +1753,22 @@ NS_ASSUME_NONNULL_BEGIN
 
 - (void)readAttributeDefaultOtaProviderWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeDefaultOtaProviderWithValue:(NSData * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeDefaultOtaProviderWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeDefaultOtaProviderWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeUpdatePossibleWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeUpdatePossibleWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeUpdatePossibleWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1057,10 +1785,22 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeOccupancyWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeOccupancySensorTypeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeOccupancySensorTypeWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeOccupancySensorTypeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeOccupancySensorTypeBitmapWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeOccupancySensorTypeBitmapWithMinInterval:(uint16_t)minInterval
+                                                       maxInterval:(uint16_t)maxInterval
+                                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeOccupancySensorTypeBitmapWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1085,19 +1825,43 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeOnOffWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeGlobalSceneControlWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeGlobalSceneControlWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeGlobalSceneControlWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeOnTimeWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeOnTimeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeOnTimeWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeOnTimeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeOffWaitTimeWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeOffWaitTimeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeOffWaitTimeWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeOffWaitTimeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeStartUpOnOffWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeStartUpOnOffWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeStartUpOnOffWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeStartUpOnOffWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeFeatureMapWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1108,11 +1872,23 @@ NS_ASSUME_NONNULL_BEGIN
 @interface CHIPOnOffSwitchConfiguration : CHIPCluster
 
 - (void)readAttributeSwitchTypeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeSwitchTypeWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeSwitchTypeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeSwitchActionsWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeSwitchActionsWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeSwitchActionsWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeSwitchActionsWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1143,14 +1919,30 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)readAttributeFabricsListWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeSupportedFabricsWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeSupportedFabricsWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeSupportedFabricsWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCommissionedFabricsWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCommissionedFabricsWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCommissionedFabricsWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTrustedRootCertificatesWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCurrentFabricIndexWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCurrentFabricIndexWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCurrentFabricIndexWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1161,26 +1953,66 @@ NS_ASSUME_NONNULL_BEGIN
 @interface CHIPPowerSource : CHIPCluster
 
 - (void)readAttributeStatusWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeStatusWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeStatusWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeOrderWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeOrderWithMinInterval:(uint16_t)minInterval
+                                   maxInterval:(uint16_t)maxInterval
+                               responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeOrderWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeDescriptionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeDescriptionWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeDescriptionWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeBatteryVoltageWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBatteryVoltageWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBatteryVoltageWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeBatteryPercentRemainingWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBatteryPercentRemainingWithMinInterval:(uint16_t)minInterval
+                                                     maxInterval:(uint16_t)maxInterval
+                                                 responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBatteryPercentRemainingWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeBatteryTimeRemainingWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBatteryTimeRemainingWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBatteryTimeRemainingWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeBatteryChargeLevelWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBatteryChargeLevelWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBatteryChargeLevelWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeActiveBatteryFaultsWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeBatteryChargeStateWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBatteryChargeStateWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBatteryChargeStateWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeFeatureMapWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1197,10 +2029,22 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMinMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMaxMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1211,30 +2055,82 @@ NS_ASSUME_NONNULL_BEGIN
 @interface CHIPPumpConfigurationAndControl : CHIPCluster
 
 - (void)readAttributeMaxPressureWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMaxPressureWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMaxPressureWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMaxSpeedWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMaxSpeedWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMaxSpeedWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMaxFlowWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMaxFlowWithMinInterval:(uint16_t)minInterval
+                                     maxInterval:(uint16_t)maxInterval
+                                 responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMaxFlowWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMinConstPressureWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMinConstPressureWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMinConstPressureWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMaxConstPressureWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMaxConstPressureWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMaxConstPressureWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMinCompPressureWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMinCompPressureWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMinCompPressureWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMaxCompPressureWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMaxCompPressureWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMaxCompPressureWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMinConstSpeedWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMinConstSpeedWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMinConstSpeedWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMaxConstSpeedWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMaxConstSpeedWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMaxConstSpeedWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMinConstFlowWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMinConstFlowWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMinConstFlowWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMaxConstFlowWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMaxConstFlowWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMaxConstFlowWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMinConstTempWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMinConstTempWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMinConstTempWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMaxConstTempWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMaxConstTempWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMaxConstTempWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePumpStatusWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)subscribeAttributePumpStatusWithMinInterval:(uint16_t)minInterval
@@ -1243,8 +2139,16 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributePumpStatusWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeEffectiveOperationModeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeEffectiveOperationModeWithMinInterval:(uint16_t)minInterval
+                                                    maxInterval:(uint16_t)maxInterval
+                                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeEffectiveOperationModeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeEffectiveControlModeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeEffectiveControlModeWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeEffectiveControlModeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCapacityWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)subscribeAttributeCapacityWithMinInterval:(uint16_t)minInterval
@@ -1253,20 +2157,48 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeCapacityWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeSpeedWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeSpeedWithMinInterval:(uint16_t)minInterval
+                                   maxInterval:(uint16_t)maxInterval
+                               responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeSpeedWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeLifetimeEnergyConsumedWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeLifetimeEnergyConsumedWithMinInterval:(uint16_t)minInterval
+                                                    maxInterval:(uint16_t)maxInterval
+                                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeLifetimeEnergyConsumedWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeOperationModeWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeOperationModeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeOperationModeWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeOperationModeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeControlModeWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeControlModeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeControlModeWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeControlModeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeAlarmMaskWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeAlarmMaskWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeAlarmMaskWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeFeatureMapWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1283,8 +2215,16 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMinMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMaxMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)subscribeAttributeToleranceWithMinInterval:(uint16_t)minInterval
@@ -1293,6 +2233,10 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1313,16 +2257,40 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)viewScene:(CHIPScenesClusterViewScenePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeSceneCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeSceneCountWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeSceneCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCurrentSceneWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCurrentSceneWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCurrentSceneWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCurrentGroupWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCurrentGroupWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCurrentGroupWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeSceneValidWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeSceneValidWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeSceneValidWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNameSupportWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNameSupportWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNameSupportWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1338,12 +2306,28 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)readAttributeThreadMetricsWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCurrentHeapFreeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCurrentHeapFreeWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCurrentHeapFreeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCurrentHeapUsedWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCurrentHeapUsedWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCurrentHeapUsedWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCurrentHeapHighWatermarkWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCurrentHeapHighWatermarkWithMinInterval:(uint16_t)minInterval
+                                                      maxInterval:(uint16_t)maxInterval
+                                                  responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCurrentHeapHighWatermarkWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1354,6 +2338,10 @@ NS_ASSUME_NONNULL_BEGIN
 @interface CHIPSwitch : CHIPCluster
 
 - (void)readAttributeNumberOfPositionsWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNumberOfPositionsWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNumberOfPositionsWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCurrentPositionWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)subscribeAttributeCurrentPositionWithMinInterval:(uint16_t)minInterval
@@ -1362,10 +2350,22 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeCurrentPositionWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMultiPressMaxWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMultiPressMaxWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMultiPressMaxWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeFeatureMapWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1383,10 +2383,22 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)readAttributeTvChannelListWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTvChannelLineupWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTvChannelLineupWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTvChannelLineupWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCurrentTvChannelWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCurrentTvChannelWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCurrentTvChannelWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1402,6 +2414,10 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)readAttributeTargetNavigatorListWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1418,8 +2434,16 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMinMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMaxMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)subscribeAttributeToleranceWithMinInterval:(uint16_t)minInterval
@@ -1428,6 +2452,10 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1460,51 +2488,115 @@ NS_ASSUME_NONNULL_BEGIN
 
 - (void)readAttributeBooleanWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeBooleanWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBooleanWithMinInterval:(uint16_t)minInterval
+                                     maxInterval:(uint16_t)maxInterval
+                                 responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBooleanWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeBitmap8WithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeBitmap8WithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBitmap8WithMinInterval:(uint16_t)minInterval
+                                     maxInterval:(uint16_t)maxInterval
+                                 responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBitmap8WithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeBitmap16WithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeBitmap16WithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBitmap16WithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBitmap16WithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeBitmap32WithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeBitmap32WithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBitmap32WithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBitmap32WithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeBitmap64WithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeBitmap64WithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBitmap64WithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBitmap64WithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeInt8uWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeInt8uWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeInt8uWithMinInterval:(uint16_t)minInterval
+                                   maxInterval:(uint16_t)maxInterval
+                               responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeInt8uWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeInt16uWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeInt16uWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeInt16uWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeInt16uWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeInt32uWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeInt32uWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeInt32uWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeInt32uWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeInt64uWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeInt64uWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeInt64uWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeInt64uWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeInt8sWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeInt8sWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeInt8sWithMinInterval:(uint16_t)minInterval
+                                   maxInterval:(uint16_t)maxInterval
+                               responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeInt8sWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeInt16sWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeInt16sWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeInt16sWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeInt16sWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeInt32sWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeInt32sWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeInt32sWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeInt32sWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeInt64sWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeInt64sWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeInt64sWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeInt64sWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeEnum8WithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeEnum8WithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeEnum8WithMinInterval:(uint16_t)minInterval
+                                   maxInterval:(uint16_t)maxInterval
+                               responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeEnum8WithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeEnum16WithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeEnum16WithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeEnum16WithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeEnum16WithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeOctetStringWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeOctetStringWithValue:(NSData * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeOctetStringWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeOctetStringWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeListInt8uWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeListInt8uWithValue:(NSArray * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
@@ -1517,79 +2609,179 @@ NS_ASSUME_NONNULL_BEGIN
 
 - (void)readAttributeLongOctetStringWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeLongOctetStringWithValue:(NSData * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeLongOctetStringWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeLongOctetStringWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCharStringWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeCharStringWithValue:(NSString * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCharStringWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCharStringWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeLongCharStringWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeLongCharStringWithValue:(NSString * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeLongCharStringWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeLongCharStringWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeEpochUsWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeEpochUsWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeEpochUsWithMinInterval:(uint16_t)minInterval
+                                     maxInterval:(uint16_t)maxInterval
+                                 responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeEpochUsWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeEpochSWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeEpochSWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeEpochSWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeEpochSWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeVendorIdWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeVendorIdWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeVendorIdWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeVendorIdWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeListNullablesAndOptionalsStructWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeUnsupportedWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeUnsupportedWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeUnsupportedWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeUnsupportedWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNullableBooleanWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeNullableBooleanWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNullableBooleanWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNullableBooleanWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNullableBitmap8WithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeNullableBitmap8WithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNullableBitmap8WithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNullableBitmap8WithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNullableBitmap16WithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeNullableBitmap16WithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNullableBitmap16WithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNullableBitmap16WithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNullableBitmap32WithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeNullableBitmap32WithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNullableBitmap32WithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNullableBitmap32WithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNullableBitmap64WithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeNullableBitmap64WithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNullableBitmap64WithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNullableBitmap64WithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNullableInt8uWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeNullableInt8uWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNullableInt8uWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNullableInt8uWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNullableInt16uWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeNullableInt16uWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNullableInt16uWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNullableInt16uWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNullableInt32uWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeNullableInt32uWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNullableInt32uWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNullableInt32uWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNullableInt64uWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeNullableInt64uWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNullableInt64uWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNullableInt64uWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNullableInt8sWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeNullableInt8sWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNullableInt8sWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNullableInt8sWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNullableInt16sWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeNullableInt16sWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNullableInt16sWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNullableInt16sWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNullableInt32sWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeNullableInt32sWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNullableInt32sWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNullableInt32sWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNullableInt64sWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeNullableInt64sWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNullableInt64sWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNullableInt64sWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNullableEnum8WithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeNullableEnum8WithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNullableEnum8WithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNullableEnum8WithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNullableEnum16WithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeNullableEnum16WithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNullableEnum16WithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNullableEnum16WithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNullableOctetStringWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeNullableOctetStringWithValue:(NSData * _Nullable)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNullableOctetStringWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNullableOctetStringWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNullableCharStringWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeNullableCharStringWithValue:(NSString * _Nullable)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNullableCharStringWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNullableCharStringWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1617,50 +2809,122 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeLocalTemperatureWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeAbsMinHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeAbsMinHeatSetpointLimitWithMinInterval:(uint16_t)minInterval
+                                                     maxInterval:(uint16_t)maxInterval
+                                                 responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeAbsMinHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeAbsMaxHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeAbsMaxHeatSetpointLimitWithMinInterval:(uint16_t)minInterval
+                                                     maxInterval:(uint16_t)maxInterval
+                                                 responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeAbsMaxHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeAbsMinCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeAbsMinCoolSetpointLimitWithMinInterval:(uint16_t)minInterval
+                                                     maxInterval:(uint16_t)maxInterval
+                                                 responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeAbsMinCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeAbsMaxCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeAbsMaxCoolSetpointLimitWithMinInterval:(uint16_t)minInterval
+                                                     maxInterval:(uint16_t)maxInterval
+                                                 responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeAbsMaxCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeOccupiedCoolingSetpointWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeOccupiedCoolingSetpointWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeOccupiedCoolingSetpointWithMinInterval:(uint16_t)minInterval
+                                                     maxInterval:(uint16_t)maxInterval
+                                                 responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeOccupiedCoolingSetpointWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeOccupiedHeatingSetpointWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeOccupiedHeatingSetpointWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeOccupiedHeatingSetpointWithMinInterval:(uint16_t)minInterval
+                                                     maxInterval:(uint16_t)maxInterval
+                                                 responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeOccupiedHeatingSetpointWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMinHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeMinHeatSetpointLimitWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMinHeatSetpointLimitWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMinHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMaxHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeMaxHeatSetpointLimitWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMaxHeatSetpointLimitWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMaxHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMinCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeMinCoolSetpointLimitWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMinCoolSetpointLimitWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMinCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMaxCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeMaxCoolSetpointLimitWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMaxCoolSetpointLimitWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMaxCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMinSetpointDeadBandWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeMinSetpointDeadBandWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMinSetpointDeadBandWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMinSetpointDeadBandWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeControlSequenceOfOperationWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeControlSequenceOfOperationWithValue:(NSNumber * _Nonnull)value
                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeControlSequenceOfOperationWithMinInterval:(uint16_t)minInterval
+                                                        maxInterval:(uint16_t)maxInterval
+                                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeControlSequenceOfOperationWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeSystemModeWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeSystemModeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeSystemModeWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeSystemModeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeStartOfWeekWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeStartOfWeekWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeStartOfWeekWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNumberOfWeeklyTransitionsWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNumberOfWeeklyTransitionsWithMinInterval:(uint16_t)minInterval
+                                                       maxInterval:(uint16_t)maxInterval
+                                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNumberOfWeeklyTransitionsWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNumberOfDailyTransitionsWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNumberOfDailyTransitionsWithMinInterval:(uint16_t)minInterval
+                                                      maxInterval:(uint16_t)maxInterval
+                                                  responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNumberOfDailyTransitionsWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeFeatureMapWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1672,15 +2936,31 @@ NS_ASSUME_NONNULL_BEGIN
 
 - (void)readAttributeTemperatureDisplayModeWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeTemperatureDisplayModeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTemperatureDisplayModeWithMinInterval:(uint16_t)minInterval
+                                                    maxInterval:(uint16_t)maxInterval
+                                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTemperatureDisplayModeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeKeypadLockoutWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeKeypadLockoutWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeKeypadLockoutWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeKeypadLockoutWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeScheduleProgrammingVisibilityWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeScheduleProgrammingVisibilityWithValue:(NSNumber * _Nonnull)value
                                              responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeScheduleProgrammingVisibilityWithMinInterval:(uint16_t)minInterval
+                                                           maxInterval:(uint16_t)maxInterval
+                                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeScheduleProgrammingVisibilityWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1694,132 +2974,368 @@ NS_ASSUME_NONNULL_BEGIN
     responseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeChannelWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeChannelWithMinInterval:(uint16_t)minInterval
+                                     maxInterval:(uint16_t)maxInterval
+                                 responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeChannelWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRoutingRoleWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRoutingRoleWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRoutingRoleWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNetworkNameWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeNetworkNameWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeNetworkNameWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePanIdWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePanIdWithMinInterval:(uint16_t)minInterval
+                                   maxInterval:(uint16_t)maxInterval
+                               responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePanIdWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeExtendedPanIdWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeExtendedPanIdWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeExtendedPanIdWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeMeshLocalPrefixWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeMeshLocalPrefixWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeMeshLocalPrefixWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeOverrunCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeOverrunCountWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeOverrunCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeNeighborTableListWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRouteTableListWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePartitionIdWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePartitionIdWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePartitionIdWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeWeightingWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeWeightingWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeWeightingWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeDataVersionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeDataVersionWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeDataVersionWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeStableDataVersionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeStableDataVersionWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeStableDataVersionWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeLeaderRouterIdWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeLeaderRouterIdWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeLeaderRouterIdWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeDetachedRoleCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeDetachedRoleCountWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeDetachedRoleCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeChildRoleCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeChildRoleCountWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeChildRoleCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRouterRoleCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRouterRoleCountWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRouterRoleCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeLeaderRoleCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeLeaderRoleCountWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeLeaderRoleCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeAttachAttemptCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeAttachAttemptCountWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeAttachAttemptCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePartitionIdChangeCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePartitionIdChangeCountWithMinInterval:(uint16_t)minInterval
+                                                    maxInterval:(uint16_t)maxInterval
+                                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePartitionIdChangeCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeBetterPartitionAttachAttemptCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBetterPartitionAttachAttemptCountWithMinInterval:(uint16_t)minInterval
+                                                               maxInterval:(uint16_t)maxInterval
+                                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBetterPartitionAttachAttemptCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeParentChangeCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeParentChangeCountWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeParentChangeCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTxTotalCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTxTotalCountWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTxTotalCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTxUnicastCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTxUnicastCountWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTxUnicastCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTxBroadcastCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTxBroadcastCountWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTxBroadcastCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTxAckRequestedCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTxAckRequestedCountWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTxAckRequestedCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTxAckedCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTxAckedCountWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTxAckedCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTxNoAckRequestedCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTxNoAckRequestedCountWithMinInterval:(uint16_t)minInterval
+                                                   maxInterval:(uint16_t)maxInterval
+                                               responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTxNoAckRequestedCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTxDataCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTxDataCountWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTxDataCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTxDataPollCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTxDataPollCountWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTxDataPollCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTxBeaconCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTxBeaconCountWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTxBeaconCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTxBeaconRequestCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTxBeaconRequestCountWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTxBeaconRequestCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTxOtherCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTxOtherCountWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTxOtherCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTxRetryCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTxRetryCountWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTxRetryCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTxDirectMaxRetryExpiryCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTxDirectMaxRetryExpiryCountWithMinInterval:(uint16_t)minInterval
+                                                         maxInterval:(uint16_t)maxInterval
+                                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTxDirectMaxRetryExpiryCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTxIndirectMaxRetryExpiryCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTxIndirectMaxRetryExpiryCountWithMinInterval:(uint16_t)minInterval
+                                                           maxInterval:(uint16_t)maxInterval
+                                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTxIndirectMaxRetryExpiryCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTxErrCcaCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTxErrCcaCountWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTxErrCcaCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTxErrAbortCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTxErrAbortCountWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTxErrAbortCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTxErrBusyChannelCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTxErrBusyChannelCountWithMinInterval:(uint16_t)minInterval
+                                                   maxInterval:(uint16_t)maxInterval
+                                               responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTxErrBusyChannelCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRxTotalCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRxTotalCountWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRxTotalCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRxUnicastCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRxUnicastCountWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRxUnicastCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRxBroadcastCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRxBroadcastCountWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRxBroadcastCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRxDataCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRxDataCountWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRxDataCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRxDataPollCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRxDataPollCountWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRxDataPollCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRxBeaconCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRxBeaconCountWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRxBeaconCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRxBeaconRequestCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRxBeaconRequestCountWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRxBeaconRequestCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRxOtherCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRxOtherCountWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRxOtherCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRxAddressFilteredCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRxAddressFilteredCountWithMinInterval:(uint16_t)minInterval
+                                                    maxInterval:(uint16_t)maxInterval
+                                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRxAddressFilteredCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRxDestAddrFilteredCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRxDestAddrFilteredCountWithMinInterval:(uint16_t)minInterval
+                                                     maxInterval:(uint16_t)maxInterval
+                                                 responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRxDestAddrFilteredCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRxDuplicatedCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRxDuplicatedCountWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRxDuplicatedCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRxErrNoFrameCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRxErrNoFrameCountWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRxErrNoFrameCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRxErrUnknownNeighborCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRxErrUnknownNeighborCountWithMinInterval:(uint16_t)minInterval
+                                                       maxInterval:(uint16_t)maxInterval
+                                                   responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRxErrUnknownNeighborCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRxErrInvalidSrcAddrCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRxErrInvalidSrcAddrCountWithMinInterval:(uint16_t)minInterval
+                                                      maxInterval:(uint16_t)maxInterval
+                                                  responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRxErrInvalidSrcAddrCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRxErrSecCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRxErrSecCountWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRxErrSecCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRxErrFcsCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRxErrFcsCountWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRxErrFcsCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRxErrOtherCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRxErrOtherCountWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRxErrOtherCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeActiveTimestampWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeActiveTimestampWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeActiveTimestampWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePendingTimestampWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePendingTimestampWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePendingTimestampWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeDelayWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeDelayWithMinInterval:(uint16_t)minInterval
+                                   maxInterval:(uint16_t)maxInterval
+                               responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeDelayWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeSecurityPolicyWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeChannelMaskWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeChannelMaskWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeChannelMaskWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeOperationalDatasetComponentsWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeActiveNetworkFaultsListWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1830,8 +3346,16 @@ NS_ASSUME_NONNULL_BEGIN
 @interface CHIPWakeOnLan : CHIPCluster
 
 - (void)readAttributeWakeOnLanMacAddressWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeWakeOnLanMacAddressWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeWakeOnLanMacAddressWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1845,32 +3369,88 @@ NS_ASSUME_NONNULL_BEGIN
     responseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeBssidWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBssidWithMinInterval:(uint16_t)minInterval
+                                   maxInterval:(uint16_t)maxInterval
+                               responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBssidWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeSecurityTypeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeSecurityTypeWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeSecurityTypeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeWiFiVersionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeWiFiVersionWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeWiFiVersionWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeChannelNumberWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeChannelNumberWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeChannelNumberWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeRssiWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeRssiWithMinInterval:(uint16_t)minInterval
+                                  maxInterval:(uint16_t)maxInterval
+                              responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeRssiWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeBeaconLostCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBeaconLostCountWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBeaconLostCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeBeaconRxCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeBeaconRxCountWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeBeaconRxCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePacketMulticastRxCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePacketMulticastRxCountWithMinInterval:(uint16_t)minInterval
+                                                    maxInterval:(uint16_t)maxInterval
+                                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePacketMulticastRxCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePacketMulticastTxCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePacketMulticastTxCountWithMinInterval:(uint16_t)minInterval
+                                                    maxInterval:(uint16_t)maxInterval
+                                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePacketMulticastTxCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePacketUnicastRxCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePacketUnicastRxCountWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePacketUnicastRxCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributePacketUnicastTxCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributePacketUnicastTxCountWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributePacketUnicastTxCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCurrentMaxRateWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCurrentMaxRateWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCurrentMaxRateWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeOverrunCountWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeOverrunCountWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeOverrunCountWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
@@ -1894,12 +3474,28 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)upOrOpen:(CHIPWindowCoveringClusterUpOrOpenPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeTypeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeTypeWithMinInterval:(uint16_t)minInterval
+                                  maxInterval:(uint16_t)maxInterval
+                              responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeTypeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCurrentPositionLiftWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCurrentPositionLiftWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCurrentPositionLiftWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCurrentPositionTiltWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeCurrentPositionTiltWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeCurrentPositionTiltWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeConfigStatusWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeConfigStatusWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeConfigStatusWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCurrentPositionLiftPercentageWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)subscribeAttributeCurrentPositionLiftPercentageWithMinInterval:(uint16_t)minInterval
@@ -1932,6 +3528,10 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeTargetPositionTiltPercent100thsWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeEndProductTypeWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeEndProductTypeWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeEndProductTypeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeCurrentPositionLiftPercent100thsWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)subscribeAttributeCurrentPositionLiftPercent100thsWithMinInterval:(uint16_t)minInterval
@@ -1946,15 +3546,35 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeCurrentPositionTiltPercent100thsWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeInstalledOpenLimitLiftWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeInstalledOpenLimitLiftWithMinInterval:(uint16_t)minInterval
+                                                    maxInterval:(uint16_t)maxInterval
+                                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeInstalledOpenLimitLiftWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeInstalledClosedLimitLiftWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeInstalledClosedLimitLiftWithMinInterval:(uint16_t)minInterval
+                                                      maxInterval:(uint16_t)maxInterval
+                                                  responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeInstalledClosedLimitLiftWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeInstalledOpenLimitTiltWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeInstalledOpenLimitTiltWithMinInterval:(uint16_t)minInterval
+                                                    maxInterval:(uint16_t)maxInterval
+                                                responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeInstalledOpenLimitTiltWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeInstalledClosedLimitTiltWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeInstalledClosedLimitTiltWithMinInterval:(uint16_t)minInterval
+                                                      maxInterval:(uint16_t)maxInterval
+                                                  responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeInstalledClosedLimitTiltWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeModeWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)writeAttributeModeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeModeWithMinInterval:(uint16_t)minInterval
+                                  maxInterval:(uint16_t)maxInterval
+                              responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeModeWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeSafetyStatusWithResponseHandler:(ResponseHandler)responseHandler;
 - (void)subscribeAttributeSafetyStatusWithMinInterval:(uint16_t)minInterval
@@ -1963,8 +3583,16 @@ NS_ASSUME_NONNULL_BEGIN
 - (void)reportAttributeSafetyStatusWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeFeatureMapWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler;
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler;
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler;
 
 @end
 
diff --git a/src/darwin/Framework/CHIP/zap-generated/CHIPClustersObjc.mm b/src/darwin/Framework/CHIP/zap-generated/CHIPClustersObjc.mm
index ac04af86a48b2b..d71e5081da0658 100644
--- a/src/darwin/Framework/CHIP/zap-generated/CHIPClustersObjc.mm
+++ b/src/darwin/Framework/CHIP/zap-generated/CHIPClustersObjc.mm
@@ -76,6 +76,25 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
 @end
 
 @implementation CHIPAdministratorCommissioning
@@ -138,6 +157,25 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
 @end
 
 @implementation CHIPApplicationBasic
@@ -168,6 +206,25 @@ new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^
     });
 }
 
+- (void)subscribeAttributeVendorNameWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeVendorName(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeVendorNameWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeVendorName(success);
+        },
+        true);
+}
+
 - (void)readAttributeVendorIdWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -175,6 +232,25 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeVendorIdWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeVendorId(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeVendorIdWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeVendorId(success);
+        },
+        true);
+}
+
 - (void)readAttributeApplicationNameWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -182,6 +258,25 @@ new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^
     });
 }
 
+- (void)subscribeAttributeApplicationNameWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeApplicationName(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeApplicationNameWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeApplicationName(success);
+        },
+        true);
+}
+
 - (void)readAttributeProductIdWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -189,6 +284,25 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeProductIdWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeProductId(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeProductIdWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeProductId(success);
+        },
+        true);
+}
+
 - (void)readAttributeApplicationIdWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -196,6 +310,25 @@ new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^
     });
 }
 
+- (void)subscribeAttributeApplicationIdWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeApplicationId(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeApplicationIdWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeApplicationId(success);
+        },
+        true);
+}
+
 - (void)readAttributeCatalogVendorIdWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -203,6 +336,25 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeCatalogVendorIdWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCatalogVendorId(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeCatalogVendorIdWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCatalogVendorId(success);
+        },
+        true);
+}
+
 - (void)readAttributeApplicationStatusWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -210,6 +362,25 @@ new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
+- (void)subscribeAttributeApplicationStatusWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeApplicationStatus(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeApplicationStatusWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeApplicationStatus(success);
+        },
+        true);
+}
+
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -217,6 +388,25 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
 @end
 
 @implementation CHIPApplicationLauncher
@@ -258,6 +448,25 @@ new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
+- (void)subscribeAttributeCatalogVendorIdWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCatalogVendorId(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeCatalogVendorIdWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCatalogVendorId(success);
+        },
+        true);
+}
+
 - (void)readAttributeApplicationIdWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -265,6 +474,25 @@ new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
+- (void)subscribeAttributeApplicationIdWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeApplicationId(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeApplicationIdWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeApplicationId(success);
+        },
+        true);
+}
+
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -272,6 +500,25 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
 @end
 
 @implementation CHIPAudioOutput
@@ -323,6 +570,25 @@ new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
+- (void)subscribeAttributeCurrentAudioOutputWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCurrentAudioOutput(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeCurrentAudioOutputWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentAudioOutput(success);
+        },
+        true);
+}
+
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -330,6 +596,25 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
 @end
 
 @implementation CHIPBarrierControl
@@ -373,682 +658,794 @@ new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
-- (void)readAttributeBarrierSafetyStatusWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeBarrierMovingStateWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeBarrierSafetyStatus(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeBarrierMovingState(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeBarrierCapabilitiesWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeBarrierMovingStateWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeBarrierCapabilities(success, failure);
-    });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBarrierMovingState(success);
+        },
+        true);
 }
 
-- (void)readAttributeBarrierPositionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeBarrierSafetyStatusWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeBarrierPosition(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeBarrierSafetyStatus(success, failure);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeBarrierSafetyStatusWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+        return self.cppCluster.SubscribeAttributeBarrierSafetyStatus(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
-
-@implementation CHIPBasic
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributeBarrierSafetyStatusWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBarrierSafetyStatus(success);
+        },
+        true);
 }
 
-- (void)mfgSpecificPing:(CHIPBasicClusterMfgSpecificPingPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeBarrierCapabilitiesWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Basic::Commands::MfgSpecificPing::Type request;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeBarrierCapabilities(success, failure);
     });
 }
 
-- (void)readAttributeInteractionModelVersionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeBarrierCapabilitiesWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeInteractionModelVersion(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeBarrierCapabilities(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeVendorNameWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeBarrierCapabilitiesWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeVendorName(success, failure);
-    });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBarrierCapabilities(success);
+        },
+        true);
 }
 
-- (void)readAttributeVendorIDWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeBarrierPositionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeVendorID(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeBarrierPosition(success, failure);
     });
 }
 
-- (void)readAttributeProductNameWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeBarrierPositionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeProductName(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeBarrierPosition(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeProductIDWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeBarrierPositionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBarrierPosition(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeProductID(success, failure);
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
     });
 }
 
-- (void)readAttributeUserLabelWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeUserLabel(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeUserLabelWithValue:(NSString * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = Basic::Attributes::UserLabel::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = [self asCharSpan:value];
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
 }
 
-- (void)readAttributeLocationWithResponseHandler:(ResponseHandler)responseHandler
+@end
+
+@implementation CHIPBasic
+
+- (chip::Controller::ClusterBase *)getCluster
 {
-    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeLocation(success, failure);
-    });
+    return &_cppCluster;
 }
 
-- (void)writeAttributeLocationWithValue:(NSString * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)mfgSpecificPing:(CHIPBasicClusterMfgSpecificPingPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = Basic::Attributes::Location::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = [self asCharSpan:value];
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+    ListFreer listFreer;
+    Basic::Commands::MfgSpecificPing::Type request;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeHardwareVersionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeInteractionModelVersionWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeHardwareVersion(success, failure);
+        return self.cppCluster.ReadAttributeInteractionModelVersion(success, failure);
     });
 }
 
-- (void)readAttributeHardwareVersionStringWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeInteractionModelVersionWithMinInterval:(uint16_t)minInterval
+                                                     maxInterval:(uint16_t)maxInterval
+                                                 responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeHardwareVersionString(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeInteractionModelVersion(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeSoftwareVersionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeInteractionModelVersionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeSoftwareVersion(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeInteractionModelVersion(success);
+        },
+        true);
 }
 
-- (void)readAttributeSoftwareVersionStringWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeVendorNameWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeSoftwareVersionString(success, failure);
+        return self.cppCluster.ReadAttributeVendorName(success, failure);
     });
 }
 
-- (void)readAttributeManufacturingDateWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeVendorNameWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeManufacturingDate(success, failure);
+        return self.cppCluster.SubscribeAttributeVendorName(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributePartNumberWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeVendorNameWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePartNumber(success, failure);
-    });
+    new CHIPCharStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeVendorName(success);
+        },
+        true);
 }
 
-- (void)readAttributeProductURLWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeVendorIDWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeProductURL(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeVendorID(success, failure);
     });
 }
 
-- (void)readAttributeProductLabelWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeVendorIDWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeProductLabel(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeVendorID(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeSerialNumberWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeVendorIDWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeVendorID(success);
+        },
+        true);
+}
+
+- (void)readAttributeProductNameWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeSerialNumber(success, failure);
+        return self.cppCluster.ReadAttributeProductName(success, failure);
     });
 }
 
-- (void)readAttributeLocalConfigDisabledWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeProductNameWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeLocalConfigDisabled(success, failure);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeProductName(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeLocalConfigDisabledWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeProductNameWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = Basic::Attributes::LocalConfigDisabled::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.boolValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPCharStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeProductName(success);
+        },
+        true);
 }
 
-- (void)readAttributeReachableWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeProductIDWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeReachable(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeProductID(success, failure);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeProductIDWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+        return self.cppCluster.SubscribeAttributeProductID(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
-
-@implementation CHIPBinaryInputBasic
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributeProductIDWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeProductID(success);
+        },
+        true);
 }
 
-- (void)readAttributeOutOfServiceWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeUserLabelWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOutOfService(success, failure);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeUserLabel(success, failure);
     });
 }
 
-- (void)writeAttributeOutOfServiceWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeUserLabelWithValue:(NSString * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         ListFreer listFreer;
-        using TypeInfo = BinaryInputBasic::Attributes::OutOfService::TypeInfo;
+        using TypeInfo = Basic::Attributes::UserLabel::TypeInfo;
         TypeInfo::Type cppValue;
-        cppValue = value.boolValue;
+        cppValue = [self asCharSpan:value];
         auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
         return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributePresentValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeUserLabelWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePresentValue(success, failure);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeUserLabel(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributePresentValueWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeUserLabelWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeUserLabel(success);
+        },
+        true);
+}
+
+- (void)readAttributeLocationWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeLocation(success, failure);
+    });
+}
+
+- (void)writeAttributeLocationWithValue:(NSString * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         ListFreer listFreer;
-        using TypeInfo = BinaryInputBasic::Attributes::PresentValue::TypeInfo;
+        using TypeInfo = Basic::Attributes::Location::TypeInfo;
         TypeInfo::Type cppValue;
-        cppValue = value.boolValue;
+        cppValue = [self asCharSpan:value];
         auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
         return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)subscribeAttributePresentValueWithMinInterval:(uint16_t)minInterval
-                                          maxInterval:(uint16_t)maxInterval
-                                      responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeLocationWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributePresentValue(success, failure, minInterval, maxInterval);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeLocation(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)reportAttributePresentValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeLocationWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(
+    new CHIPCharStringAttributeCallbackBridge(
         self.callbackQueue, responseHandler,
         ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributePresentValue(success);
+            return self.cppCluster.ReportAttributeLocation(success);
         },
         true);
 }
 
-- (void)readAttributeStatusFlagsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeHardwareVersionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeStatusFlags(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeHardwareVersion(success, failure);
     });
 }
 
-- (void)subscribeAttributeStatusFlagsWithMinInterval:(uint16_t)minInterval
-                                         maxInterval:(uint16_t)maxInterval
-                                     responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeHardwareVersionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeStatusFlags(success, failure, minInterval, maxInterval);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeHardwareVersion(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)reportAttributeStatusFlagsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeHardwareVersionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(
+    new CHIPInt16uAttributeCallbackBridge(
         self.callbackQueue, responseHandler,
         ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeStatusFlags(success);
+            return self.cppCluster.ReportAttributeHardwareVersion(success);
         },
         true);
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeHardwareVersionStringWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeHardwareVersionString(success, failure);
     });
 }
 
-@end
-
-@implementation CHIPBinding
+- (void)subscribeAttributeHardwareVersionStringWithMinInterval:(uint16_t)minInterval
+                                                   maxInterval:(uint16_t)maxInterval
+                                               responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeHardwareVersionString(success, failure, minInterval, maxInterval);
+    });
+}
 
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributeHardwareVersionStringWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPCharStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeHardwareVersionString(success);
+        },
+        true);
 }
 
-- (void)bind:(CHIPBindingClusterBindPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeSoftwareVersionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Binding::Commands::Bind::Type request;
-    request.nodeId = payload.nodeId.unsignedLongLongValue;
-    request.groupId = payload.groupId.unsignedShortValue;
-    request.endpointId = payload.endpointId.unsignedShortValue;
-    request.clusterId = payload.clusterId.unsignedIntValue;
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeSoftwareVersion(success, failure);
+    });
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+- (void)subscribeAttributeSoftwareVersionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeSoftwareVersion(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)unbind:(CHIPBindingClusterUnbindPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeSoftwareVersionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Binding::Commands::Unbind::Type request;
-    request.nodeId = payload.nodeId.unsignedLongLongValue;
-    request.groupId = payload.groupId.unsignedShortValue;
-    request.endpointId = payload.endpointId.unsignedShortValue;
-    request.clusterId = payload.clusterId.unsignedIntValue;
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeSoftwareVersion(success);
+        },
+        true);
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+- (void)readAttributeSoftwareVersionStringWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeSoftwareVersionString(success, failure);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeSoftwareVersionStringWithMinInterval:(uint16_t)minInterval
+                                                   maxInterval:(uint16_t)maxInterval
+                                               responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeSoftwareVersionString(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
+- (void)reportAttributeSoftwareVersionStringWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeSoftwareVersionString(success);
+        },
+        true);
+}
 
-@implementation CHIPBooleanState
+- (void)readAttributeManufacturingDateWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeManufacturingDate(success, failure);
+    });
+}
 
-- (chip::Controller::ClusterBase *)getCluster
+- (void)subscribeAttributeManufacturingDateWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeManufacturingDate(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)readAttributeStateValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeManufacturingDateWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeStateValue(success, failure);
+    new CHIPCharStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeManufacturingDate(success);
+        },
+        true);
+}
+
+- (void)readAttributePartNumberWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePartNumber(success, failure);
     });
 }
 
-- (void)subscribeAttributeStateValueWithMinInterval:(uint16_t)minInterval
+- (void)subscribeAttributePartNumberWithMinInterval:(uint16_t)minInterval
                                         maxInterval:(uint16_t)maxInterval
                                     responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeStateValue(success, failure, minInterval, maxInterval);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePartNumber(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)reportAttributeStateValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePartNumberWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(
+    new CHIPCharStringAttributeCallbackBridge(
         self.callbackQueue, responseHandler,
         ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeStateValue(success);
+            return self.cppCluster.ReportAttributePartNumber(success);
         },
         true);
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeProductURLWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeProductURL(success, failure);
     });
 }
 
-@end
-
-@implementation CHIPBridgedActions
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)subscribeAttributeProductURLWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeProductURL(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)disableAction:(CHIPBridgedActionsClusterDisableActionPayload * _Nonnull)payload
-      responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeProductURLWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    BridgedActions::Commands::DisableAction::Type request;
-    request.actionID = payload.actionID.unsignedShortValue;
-    if (payload.invokeID != nil) {
-        auto & definedValue_0 = request.invokeID.Emplace();
-        definedValue_0 = payload.invokeID.unsignedIntValue;
-    }
+    new CHIPCharStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeProductURL(success);
+        },
+        true);
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+- (void)readAttributeProductLabelWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeProductLabel(success, failure);
     });
 }
 
-- (void)disableActionWithDuration:(CHIPBridgedActionsClusterDisableActionWithDurationPayload * _Nonnull)payload
-                  responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeProductLabelWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    BridgedActions::Commands::DisableActionWithDuration::Type request;
-    request.actionID = payload.actionID.unsignedShortValue;
-    if (payload.invokeID != nil) {
-        auto & definedValue_0 = request.invokeID.Emplace();
-        definedValue_0 = payload.invokeID.unsignedIntValue;
-    }
-    request.duration = payload.duration.unsignedIntValue;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeProductLabel(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)enableAction:(CHIPBridgedActionsClusterEnableActionPayload * _Nonnull)payload
-     responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeProductLabelWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    BridgedActions::Commands::EnableAction::Type request;
-    request.actionID = payload.actionID.unsignedShortValue;
-    if (payload.invokeID != nil) {
-        auto & definedValue_0 = request.invokeID.Emplace();
-        definedValue_0 = payload.invokeID.unsignedIntValue;
-    }
+    new CHIPCharStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeProductLabel(success);
+        },
+        true);
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+- (void)readAttributeSerialNumberWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeSerialNumber(success, failure);
     });
 }
 
-- (void)enableActionWithDuration:(CHIPBridgedActionsClusterEnableActionWithDurationPayload * _Nonnull)payload
-                 responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeSerialNumberWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    BridgedActions::Commands::EnableActionWithDuration::Type request;
-    request.actionID = payload.actionID.unsignedShortValue;
-    if (payload.invokeID != nil) {
-        auto & definedValue_0 = request.invokeID.Emplace();
-        definedValue_0 = payload.invokeID.unsignedIntValue;
-    }
-    request.duration = payload.duration.unsignedIntValue;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeSerialNumber(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)instantAction:(CHIPBridgedActionsClusterInstantActionPayload * _Nonnull)payload
-      responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeSerialNumberWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    BridgedActions::Commands::InstantAction::Type request;
-    request.actionID = payload.actionID.unsignedShortValue;
-    if (payload.invokeID != nil) {
-        auto & definedValue_0 = request.invokeID.Emplace();
-        definedValue_0 = payload.invokeID.unsignedIntValue;
-    }
+    new CHIPCharStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeSerialNumber(success);
+        },
+        true);
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+- (void)readAttributeLocalConfigDisabledWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeLocalConfigDisabled(success, failure);
     });
 }
 
-- (void)instantActionWithTransition:(CHIPBridgedActionsClusterInstantActionWithTransitionPayload * _Nonnull)payload
-                    responseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeLocalConfigDisabledWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    BridgedActions::Commands::InstantActionWithTransition::Type request;
-    request.actionID = payload.actionID.unsignedShortValue;
-    if (payload.invokeID != nil) {
-        auto & definedValue_0 = request.invokeID.Emplace();
-        definedValue_0 = payload.invokeID.unsignedIntValue;
-    }
-    request.transitionTime = payload.transitionTime.unsignedShortValue;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = Basic::Attributes::LocalConfigDisabled::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.boolValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)pauseAction:(CHIPBridgedActionsClusterPauseActionPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeLocalConfigDisabledWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    BridgedActions::Commands::PauseAction::Type request;
-    request.actionID = payload.actionID.unsignedShortValue;
-    if (payload.invokeID != nil) {
-        auto & definedValue_0 = request.invokeID.Emplace();
-        definedValue_0 = payload.invokeID.unsignedIntValue;
-    }
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeLocalConfigDisabled(success, failure, minInterval, maxInterval);
+    });
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+- (void)reportAttributeLocalConfigDisabledWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeLocalConfigDisabled(success);
+        },
+        true);
 }
 
-- (void)pauseActionWithDuration:(CHIPBridgedActionsClusterPauseActionWithDurationPayload * _Nonnull)payload
-                responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeReachableWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    BridgedActions::Commands::PauseActionWithDuration::Type request;
-    request.actionID = payload.actionID.unsignedShortValue;
-    if (payload.invokeID != nil) {
-        auto & definedValue_0 = request.invokeID.Emplace();
-        definedValue_0 = payload.invokeID.unsignedIntValue;
-    }
-    request.duration = payload.duration.unsignedIntValue;
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeReachable(success, failure);
+    });
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+- (void)subscribeAttributeReachableWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeReachable(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)resumeAction:(CHIPBridgedActionsClusterResumeActionPayload * _Nonnull)payload
-     responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeReachableWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    BridgedActions::Commands::ResumeAction::Type request;
-    request.actionID = payload.actionID.unsignedShortValue;
-    if (payload.invokeID != nil) {
-        auto & definedValue_0 = request.invokeID.Emplace();
-        definedValue_0 = payload.invokeID.unsignedIntValue;
-    }
+    new CHIPBooleanAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeReachable(success);
+        },
+        true);
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
     });
 }
 
-- (void)startAction:(CHIPBridgedActionsClusterStartActionPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    BridgedActions::Commands::StartAction::Type request;
-    request.actionID = payload.actionID.unsignedShortValue;
-    if (payload.invokeID != nil) {
-        auto & definedValue_0 = request.invokeID.Emplace();
-        definedValue_0 = payload.invokeID.unsignedIntValue;
-    }
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)startActionWithDuration:(CHIPBridgedActionsClusterStartActionWithDurationPayload * _Nonnull)payload
-                responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    BridgedActions::Commands::StartActionWithDuration::Type request;
-    request.actionID = payload.actionID.unsignedShortValue;
-    if (payload.invokeID != nil) {
-        auto & definedValue_0 = request.invokeID.Emplace();
-        definedValue_0 = payload.invokeID.unsignedIntValue;
-    }
-    request.duration = payload.duration.unsignedIntValue;
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+@end
+
+@implementation CHIPBinaryInputBasic
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
 }
 
-- (void)stopAction:(CHIPBridgedActionsClusterStopActionPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeOutOfServiceWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    BridgedActions::Commands::StopAction::Type request;
-    request.actionID = payload.actionID.unsignedShortValue;
-    if (payload.invokeID != nil) {
-        auto & definedValue_0 = request.invokeID.Emplace();
-        definedValue_0 = payload.invokeID.unsignedIntValue;
-    }
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOutOfService(success, failure);
+    });
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+- (void)writeAttributeOutOfServiceWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = BinaryInputBasic::Attributes::OutOfService::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.boolValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeActionListWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeOutOfServiceWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBridgedActionsActionListListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeActionList(success, failure);
-        });
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOutOfService(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)readAttributeEndpointListWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeOutOfServiceWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBridgedActionsEndpointListListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeEndpointList(success, failure);
-        });
+    new CHIPBooleanAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOutOfService(success);
+        },
+        true);
 }
 
-- (void)readAttributeSetupUrlWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePresentValueWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeSetupUrl(success, failure);
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePresentValue(success, failure);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributePresentValueWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = BinaryInputBasic::Attributes::PresentValue::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.boolValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-@end
+- (void)subscribeAttributePresentValueWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePresentValue(success, failure, minInterval, maxInterval);
+    });
+}
 
-@implementation CHIPBridgedDeviceBasicInformation
+- (void)reportAttributePresentValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePresentValue(success);
+        },
+        true);
+}
 
-- (chip::Controller::ClusterBase *)getCluster
+- (void)readAttributeStatusFlagsWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeStatusFlags(success, failure);
+    });
+}
+
+- (void)subscribeAttributeStatusFlagsWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeStatusFlags(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeStatusFlagsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeStatusFlags(success);
+        },
+        true);
 }
 
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
@@ -1058,27 +1455,42 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
 @end
 
-@implementation CHIPColorControl
+@implementation CHIPBinding
 
 - (chip::Controller::ClusterBase *)getCluster
 {
     return &_cppCluster;
 }
 
-- (void)colorLoopSet:(CHIPColorControlClusterColorLoopSetPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)bind:(CHIPBindingClusterBindPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    ColorControl::Commands::ColorLoopSet::Type request;
-    request.updateFlags
-        = static_cast<std::remove_reference_t<decltype(request.updateFlags)>>(payload.updateFlags.unsignedCharValue);
-    request.action = static_cast<std::remove_reference_t<decltype(request.action)>>(payload.action.unsignedCharValue);
-    request.direction = static_cast<std::remove_reference_t<decltype(request.direction)>>(payload.direction.unsignedCharValue);
-    request.time = payload.time.unsignedShortValue;
-    request.startHue = payload.startHue.unsignedShortValue;
-    request.optionsMask = payload.optionsMask.unsignedCharValue;
-    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+    Binding::Commands::Bind::Type request;
+    request.nodeId = payload.nodeId.unsignedLongLongValue;
+    request.groupId = payload.groupId.unsignedShortValue;
+    request.endpointId = payload.endpointId.unsignedShortValue;
+    request.clusterId = payload.clusterId.unsignedIntValue;
 
     new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
@@ -1087,15 +1499,14 @@ new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
-- (void)enhancedMoveHue:(CHIPColorControlClusterEnhancedMoveHuePayload * _Nonnull)payload
-        responseHandler:(ResponseHandler)responseHandler
+- (void)unbind:(CHIPBindingClusterUnbindPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    ColorControl::Commands::EnhancedMoveHue::Type request;
-    request.moveMode = static_cast<std::remove_reference_t<decltype(request.moveMode)>>(payload.moveMode.unsignedCharValue);
-    request.rate = payload.rate.unsignedShortValue;
-    request.optionsMask = payload.optionsMask.unsignedCharValue;
-    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+    Binding::Commands::Unbind::Type request;
+    request.nodeId = payload.nodeId.unsignedLongLongValue;
+    request.groupId = payload.groupId.unsignedShortValue;
+    request.endpointId = payload.endpointId.unsignedShortValue;
+    request.clusterId = payload.clusterId.unsignedIntValue;
 
     new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
@@ -1104,52 +1515,112 @@ new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
-- (void)enhancedMoveToHue:(CHIPColorControlClusterEnhancedMoveToHuePayload * _Nonnull)payload
-          responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    ColorControl::Commands::EnhancedMoveToHue::Type request;
-    request.enhancedHue = payload.enhancedHue.unsignedShortValue;
-    request.direction = static_cast<std::remove_reference_t<decltype(request.direction)>>(payload.direction.unsignedCharValue);
-    request.transitionTime = payload.transitionTime.unsignedShortValue;
-    request.optionsMask = payload.optionsMask.unsignedCharValue;
-    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)enhancedMoveToHueAndSaturation:(CHIPColorControlClusterEnhancedMoveToHueAndSaturationPayload * _Nonnull)payload
-                       responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    ColorControl::Commands::EnhancedMoveToHueAndSaturation::Type request;
-    request.enhancedHue = payload.enhancedHue.unsignedShortValue;
-    request.saturation = payload.saturation.unsignedCharValue;
-    request.transitionTime = payload.transitionTime.unsignedShortValue;
-    request.optionsMask = payload.optionsMask.unsignedCharValue;
-    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+@end
+
+@implementation CHIPBooleanState
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)readAttributeStateValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeStateValue(success, failure);
     });
 }
 
-- (void)enhancedStepHue:(CHIPColorControlClusterEnhancedStepHuePayload * _Nonnull)payload
-        responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeStateValueWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeStateValue(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeStateValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeStateValue(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPBridgedActions
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)disableAction:(CHIPBridgedActionsClusterDisableActionPayload * _Nonnull)payload
+      responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    ColorControl::Commands::EnhancedStepHue::Type request;
-    request.stepMode = static_cast<std::remove_reference_t<decltype(request.stepMode)>>(payload.stepMode.unsignedCharValue);
-    request.stepSize = payload.stepSize.unsignedShortValue;
-    request.transitionTime = payload.transitionTime.unsignedShortValue;
-    request.optionsMask = payload.optionsMask.unsignedCharValue;
-    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+    BridgedActions::Commands::DisableAction::Type request;
+    request.actionID = payload.actionID.unsignedShortValue;
+    if (payload.invokeID != nil) {
+        auto & definedValue_0 = request.invokeID.Emplace();
+        definedValue_0 = payload.invokeID.unsignedIntValue;
+    }
 
     new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
@@ -1158,14 +1629,17 @@ new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
-- (void)moveColor:(CHIPColorControlClusterMoveColorPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)disableActionWithDuration:(CHIPBridgedActionsClusterDisableActionWithDurationPayload * _Nonnull)payload
+                  responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    ColorControl::Commands::MoveColor::Type request;
-    request.rateX = payload.rateX.shortValue;
-    request.rateY = payload.rateY.shortValue;
-    request.optionsMask = payload.optionsMask.unsignedCharValue;
-    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+    BridgedActions::Commands::DisableActionWithDuration::Type request;
+    request.actionID = payload.actionID.unsignedShortValue;
+    if (payload.invokeID != nil) {
+        auto & definedValue_0 = request.invokeID.Emplace();
+        definedValue_0 = payload.invokeID.unsignedIntValue;
+    }
+    request.duration = payload.duration.unsignedIntValue;
 
     new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
@@ -1174,17 +1648,16 @@ new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
-- (void)moveColorTemperature:(CHIPColorControlClusterMoveColorTemperaturePayload * _Nonnull)payload
-             responseHandler:(ResponseHandler)responseHandler
+- (void)enableAction:(CHIPBridgedActionsClusterEnableActionPayload * _Nonnull)payload
+     responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    ColorControl::Commands::MoveColorTemperature::Type request;
-    request.moveMode = static_cast<std::remove_reference_t<decltype(request.moveMode)>>(payload.moveMode.unsignedCharValue);
-    request.rate = payload.rate.unsignedShortValue;
-    request.colorTemperatureMinimum = payload.colorTemperatureMinimum.unsignedShortValue;
-    request.colorTemperatureMaximum = payload.colorTemperatureMaximum.unsignedShortValue;
-    request.optionsMask = payload.optionsMask.unsignedCharValue;
-    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+    BridgedActions::Commands::EnableAction::Type request;
+    request.actionID = payload.actionID.unsignedShortValue;
+    if (payload.invokeID != nil) {
+        auto & definedValue_0 = request.invokeID.Emplace();
+        definedValue_0 = payload.invokeID.unsignedIntValue;
+    }
 
     new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
@@ -1193,14 +1666,17 @@ new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
-- (void)moveHue:(CHIPColorControlClusterMoveHuePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)enableActionWithDuration:(CHIPBridgedActionsClusterEnableActionWithDurationPayload * _Nonnull)payload
+                 responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    ColorControl::Commands::MoveHue::Type request;
-    request.moveMode = static_cast<std::remove_reference_t<decltype(request.moveMode)>>(payload.moveMode.unsignedCharValue);
-    request.rate = payload.rate.unsignedCharValue;
-    request.optionsMask = payload.optionsMask.unsignedCharValue;
-    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+    BridgedActions::Commands::EnableActionWithDuration::Type request;
+    request.actionID = payload.actionID.unsignedShortValue;
+    if (payload.invokeID != nil) {
+        auto & definedValue_0 = request.invokeID.Emplace();
+        definedValue_0 = payload.invokeID.unsignedIntValue;
+    }
+    request.duration = payload.duration.unsignedIntValue;
 
     new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
@@ -1209,15 +1685,16 @@ new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
-- (void)moveSaturation:(CHIPColorControlClusterMoveSaturationPayload * _Nonnull)payload
-       responseHandler:(ResponseHandler)responseHandler
+- (void)instantAction:(CHIPBridgedActionsClusterInstantActionPayload * _Nonnull)payload
+      responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    ColorControl::Commands::MoveSaturation::Type request;
-    request.moveMode = static_cast<std::remove_reference_t<decltype(request.moveMode)>>(payload.moveMode.unsignedCharValue);
-    request.rate = payload.rate.unsignedCharValue;
-    request.optionsMask = payload.optionsMask.unsignedCharValue;
-    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+    BridgedActions::Commands::InstantAction::Type request;
+    request.actionID = payload.actionID.unsignedShortValue;
+    if (payload.invokeID != nil) {
+        auto & definedValue_0 = request.invokeID.Emplace();
+        definedValue_0 = payload.invokeID.unsignedIntValue;
+    }
 
     new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
@@ -1226,15 +1703,17 @@ new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
-- (void)moveToColor:(CHIPColorControlClusterMoveToColorPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)instantActionWithTransition:(CHIPBridgedActionsClusterInstantActionWithTransitionPayload * _Nonnull)payload
+                    responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    ColorControl::Commands::MoveToColor::Type request;
-    request.colorX = payload.colorX.unsignedShortValue;
-    request.colorY = payload.colorY.unsignedShortValue;
+    BridgedActions::Commands::InstantActionWithTransition::Type request;
+    request.actionID = payload.actionID.unsignedShortValue;
+    if (payload.invokeID != nil) {
+        auto & definedValue_0 = request.invokeID.Emplace();
+        definedValue_0 = payload.invokeID.unsignedIntValue;
+    }
     request.transitionTime = payload.transitionTime.unsignedShortValue;
-    request.optionsMask = payload.optionsMask.unsignedCharValue;
-    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
 
     new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
@@ -1243,15 +1722,15 @@ new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
-- (void)moveToColorTemperature:(CHIPColorControlClusterMoveToColorTemperaturePayload * _Nonnull)payload
-               responseHandler:(ResponseHandler)responseHandler
+- (void)pauseAction:(CHIPBridgedActionsClusterPauseActionPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    ColorControl::Commands::MoveToColorTemperature::Type request;
-    request.colorTemperature = payload.colorTemperature.unsignedShortValue;
-    request.transitionTime = payload.transitionTime.unsignedShortValue;
-    request.optionsMask = payload.optionsMask.unsignedCharValue;
-    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+    BridgedActions::Commands::PauseAction::Type request;
+    request.actionID = payload.actionID.unsignedShortValue;
+    if (payload.invokeID != nil) {
+        auto & definedValue_0 = request.invokeID.Emplace();
+        definedValue_0 = payload.invokeID.unsignedIntValue;
+    }
 
     new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
@@ -1260,15 +1739,17 @@ new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
-- (void)moveToHue:(CHIPColorControlClusterMoveToHuePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)pauseActionWithDuration:(CHIPBridgedActionsClusterPauseActionWithDurationPayload * _Nonnull)payload
+                responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    ColorControl::Commands::MoveToHue::Type request;
-    request.hue = payload.hue.unsignedCharValue;
-    request.direction = static_cast<std::remove_reference_t<decltype(request.direction)>>(payload.direction.unsignedCharValue);
-    request.transitionTime = payload.transitionTime.unsignedShortValue;
-    request.optionsMask = payload.optionsMask.unsignedCharValue;
-    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+    BridgedActions::Commands::PauseActionWithDuration::Type request;
+    request.actionID = payload.actionID.unsignedShortValue;
+    if (payload.invokeID != nil) {
+        auto & definedValue_0 = request.invokeID.Emplace();
+        definedValue_0 = payload.invokeID.unsignedIntValue;
+    }
+    request.duration = payload.duration.unsignedIntValue;
 
     new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
@@ -1277,16 +1758,16 @@ new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
-- (void)moveToHueAndSaturation:(CHIPColorControlClusterMoveToHueAndSaturationPayload * _Nonnull)payload
-               responseHandler:(ResponseHandler)responseHandler
+- (void)resumeAction:(CHIPBridgedActionsClusterResumeActionPayload * _Nonnull)payload
+     responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    ColorControl::Commands::MoveToHueAndSaturation::Type request;
-    request.hue = payload.hue.unsignedCharValue;
-    request.saturation = payload.saturation.unsignedCharValue;
-    request.transitionTime = payload.transitionTime.unsignedShortValue;
-    request.optionsMask = payload.optionsMask.unsignedCharValue;
-    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+    BridgedActions::Commands::ResumeAction::Type request;
+    request.actionID = payload.actionID.unsignedShortValue;
+    if (payload.invokeID != nil) {
+        auto & definedValue_0 = request.invokeID.Emplace();
+        definedValue_0 = payload.invokeID.unsignedIntValue;
+    }
 
     new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
@@ -1295,15 +1776,15 @@ new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
-- (void)moveToSaturation:(CHIPColorControlClusterMoveToSaturationPayload * _Nonnull)payload
-         responseHandler:(ResponseHandler)responseHandler
+- (void)startAction:(CHIPBridgedActionsClusterStartActionPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    ColorControl::Commands::MoveToSaturation::Type request;
-    request.saturation = payload.saturation.unsignedCharValue;
-    request.transitionTime = payload.transitionTime.unsignedShortValue;
-    request.optionsMask = payload.optionsMask.unsignedCharValue;
-    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+    BridgedActions::Commands::StartAction::Type request;
+    request.actionID = payload.actionID.unsignedShortValue;
+    if (payload.invokeID != nil) {
+        auto & definedValue_0 = request.invokeID.Emplace();
+        definedValue_0 = payload.invokeID.unsignedIntValue;
+    }
 
     new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
@@ -1312,35 +1793,17 @@ new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
-- (void)stepColor:(CHIPColorControlClusterStepColorPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)startActionWithDuration:(CHIPBridgedActionsClusterStartActionWithDurationPayload * _Nonnull)payload
+                responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    ColorControl::Commands::StepColor::Type request;
-    request.stepX = payload.stepX.shortValue;
-    request.stepY = payload.stepY.shortValue;
-    request.transitionTime = payload.transitionTime.unsignedShortValue;
-    request.optionsMask = payload.optionsMask.unsignedCharValue;
-    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
-}
-
-- (void)stepColorTemperature:(CHIPColorControlClusterStepColorTemperaturePayload * _Nonnull)payload
-             responseHandler:(ResponseHandler)responseHandler
-{
-    ListFreer listFreer;
-    ColorControl::Commands::StepColorTemperature::Type request;
-    request.stepMode = static_cast<std::remove_reference_t<decltype(request.stepMode)>>(payload.stepMode.unsignedCharValue);
-    request.stepSize = payload.stepSize.unsignedShortValue;
-    request.transitionTime = payload.transitionTime.unsignedShortValue;
-    request.colorTemperatureMinimum = payload.colorTemperatureMinimum.unsignedShortValue;
-    request.colorTemperatureMaximum = payload.colorTemperatureMaximum.unsignedShortValue;
-    request.optionsMask = payload.optionsMask.unsignedCharValue;
-    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+    BridgedActions::Commands::StartActionWithDuration::Type request;
+    request.actionID = payload.actionID.unsignedShortValue;
+    if (payload.invokeID != nil) {
+        auto & definedValue_0 = request.invokeID.Emplace();
+        definedValue_0 = payload.invokeID.unsignedIntValue;
+    }
+    request.duration = payload.duration.unsignedIntValue;
 
     new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
@@ -1349,15 +1812,15 @@ new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
-- (void)stepHue:(CHIPColorControlClusterStepHuePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)stopAction:(CHIPBridgedActionsClusterStopActionPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    ColorControl::Commands::StepHue::Type request;
-    request.stepMode = static_cast<std::remove_reference_t<decltype(request.stepMode)>>(payload.stepMode.unsignedCharValue);
-    request.stepSize = payload.stepSize.unsignedCharValue;
-    request.transitionTime = payload.transitionTime.unsignedCharValue;
-    request.optionsMask = payload.optionsMask.unsignedCharValue;
-    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+    BridgedActions::Commands::StopAction::Type request;
+    request.actionID = payload.actionID.unsignedShortValue;
+    if (payload.invokeID != nil) {
+        auto & definedValue_0 = request.invokeID.Emplace();
+        definedValue_0 = payload.invokeID.unsignedIntValue;
+    }
 
     new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
@@ -1366,561 +1829,695 @@ new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
-- (void)stepSaturation:(CHIPColorControlClusterStepSaturationPayload * _Nonnull)payload
-       responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeActionListWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    ColorControl::Commands::StepSaturation::Type request;
-    request.stepMode = static_cast<std::remove_reference_t<decltype(request.stepMode)>>(payload.stepMode.unsignedCharValue);
-    request.stepSize = payload.stepSize.unsignedCharValue;
-    request.transitionTime = payload.transitionTime.unsignedCharValue;
-    request.optionsMask = payload.optionsMask.unsignedCharValue;
-    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPBridgedActionsActionListListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeActionList(success, failure);
+        });
 }
 
-- (void)stopMoveStep:(CHIPColorControlClusterStopMoveStepPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeEndpointListWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    ColorControl::Commands::StopMoveStep::Type request;
-    request.optionsMask = payload.optionsMask.unsignedCharValue;
-    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPBridgedActionsEndpointListListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeEndpointList(success, failure);
+        });
 }
 
-- (void)readAttributeCurrentHueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeSetupUrlWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCurrentHue(success, failure);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeSetupUrl(success, failure);
     });
 }
 
-- (void)subscribeAttributeCurrentHueWithMinInterval:(uint16_t)minInterval
-                                        maxInterval:(uint16_t)maxInterval
-                                    responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeSetupUrlWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeCurrentHue(success, failure, minInterval, maxInterval);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeSetupUrl(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)reportAttributeCurrentHueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeSetupUrlWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(
+    new CHIPCharStringAttributeCallbackBridge(
         self.callbackQueue, responseHandler,
         ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeCurrentHue(success);
+            return self.cppCluster.ReportAttributeSetupUrl(success);
         },
         true);
 }
 
-- (void)readAttributeCurrentSaturationWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCurrentSaturation(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
     });
 }
 
-- (void)subscribeAttributeCurrentSaturationWithMinInterval:(uint16_t)minInterval
-                                               maxInterval:(uint16_t)maxInterval
-                                           responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeCurrentSaturation(success, failure, minInterval, maxInterval);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)reportAttributeCurrentSaturationWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(
+    new CHIPInt16uAttributeCallbackBridge(
         self.callbackQueue, responseHandler,
         ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeCurrentSaturation(success);
+            return self.cppCluster.ReportAttributeClusterRevision(success);
         },
         true);
 }
 
-- (void)readAttributeRemainingTimeWithResponseHandler:(ResponseHandler)responseHandler
+@end
+
+@implementation CHIPBridgedDeviceBasicInformation
+
+- (chip::Controller::ClusterBase *)getCluster
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRemainingTime(success, failure);
-    });
+    return &_cppCluster;
 }
 
-- (void)readAttributeCurrentXWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCurrentX(success, failure);
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
     });
 }
 
-- (void)subscribeAttributeCurrentXWithMinInterval:(uint16_t)minInterval
-                                      maxInterval:(uint16_t)maxInterval
-                                  responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeCurrentX(success, failure, minInterval, maxInterval);
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)reportAttributeCurrentXWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(
         self.callbackQueue, responseHandler,
         ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeCurrentX(success);
+            return self.cppCluster.ReportAttributeClusterRevision(success);
         },
         true);
 }
 
-- (void)readAttributeCurrentYWithResponseHandler:(ResponseHandler)responseHandler
+@end
+
+@implementation CHIPColorControl
+
+- (chip::Controller::ClusterBase *)getCluster
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCurrentY(success, failure);
-    });
+    return &_cppCluster;
 }
 
-- (void)subscribeAttributeCurrentYWithMinInterval:(uint16_t)minInterval
-                                      maxInterval:(uint16_t)maxInterval
-                                  responseHandler:(ResponseHandler)responseHandler
+- (void)colorLoopSet:(CHIPColorControlClusterColorLoopSetPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeCurrentY(success, failure, minInterval, maxInterval);
+    ListFreer listFreer;
+    ColorControl::Commands::ColorLoopSet::Type request;
+    request.updateFlags
+        = static_cast<std::remove_reference_t<decltype(request.updateFlags)>>(payload.updateFlags.unsignedCharValue);
+    request.action = static_cast<std::remove_reference_t<decltype(request.action)>>(payload.action.unsignedCharValue);
+    request.direction = static_cast<std::remove_reference_t<decltype(request.direction)>>(payload.direction.unsignedCharValue);
+    request.time = payload.time.unsignedShortValue;
+    request.startHue = payload.startHue.unsignedShortValue;
+    request.optionsMask = payload.optionsMask.unsignedCharValue;
+    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)reportAttributeCurrentYWithResponseHandler:(ResponseHandler)responseHandler
+- (void)enhancedMoveHue:(CHIPColorControlClusterEnhancedMoveHuePayload * _Nonnull)payload
+        responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(
-        self.callbackQueue, responseHandler,
-        ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeCurrentY(success);
-        },
-        true);
-}
+    ListFreer listFreer;
+    ColorControl::Commands::EnhancedMoveHue::Type request;
+    request.moveMode = static_cast<std::remove_reference_t<decltype(request.moveMode)>>(payload.moveMode.unsignedCharValue);
+    request.rate = payload.rate.unsignedShortValue;
+    request.optionsMask = payload.optionsMask.unsignedCharValue;
+    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
 
-- (void)readAttributeDriftCompensationWithResponseHandler:(ResponseHandler)responseHandler
-{
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeDriftCompensation(success, failure);
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeCompensationTextWithResponseHandler:(ResponseHandler)responseHandler
+- (void)enhancedMoveToHue:(CHIPColorControlClusterEnhancedMoveToHuePayload * _Nonnull)payload
+          responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCompensationText(success, failure);
+    ListFreer listFreer;
+    ColorControl::Commands::EnhancedMoveToHue::Type request;
+    request.enhancedHue = payload.enhancedHue.unsignedShortValue;
+    request.direction = static_cast<std::remove_reference_t<decltype(request.direction)>>(payload.direction.unsignedCharValue);
+    request.transitionTime = payload.transitionTime.unsignedShortValue;
+    request.optionsMask = payload.optionsMask.unsignedCharValue;
+    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeColorTemperatureWithResponseHandler:(ResponseHandler)responseHandler
+- (void)enhancedMoveToHueAndSaturation:(CHIPColorControlClusterEnhancedMoveToHueAndSaturationPayload * _Nonnull)payload
+                       responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorTemperature(success, failure);
+    ListFreer listFreer;
+    ColorControl::Commands::EnhancedMoveToHueAndSaturation::Type request;
+    request.enhancedHue = payload.enhancedHue.unsignedShortValue;
+    request.saturation = payload.saturation.unsignedCharValue;
+    request.transitionTime = payload.transitionTime.unsignedShortValue;
+    request.optionsMask = payload.optionsMask.unsignedCharValue;
+    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)subscribeAttributeColorTemperatureWithMinInterval:(uint16_t)minInterval
-                                              maxInterval:(uint16_t)maxInterval
-                                          responseHandler:(ResponseHandler)responseHandler
+- (void)enhancedStepHue:(CHIPColorControlClusterEnhancedStepHuePayload * _Nonnull)payload
+        responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeColorTemperature(success, failure, minInterval, maxInterval);
+    ListFreer listFreer;
+    ColorControl::Commands::EnhancedStepHue::Type request;
+    request.stepMode = static_cast<std::remove_reference_t<decltype(request.stepMode)>>(payload.stepMode.unsignedCharValue);
+    request.stepSize = payload.stepSize.unsignedShortValue;
+    request.transitionTime = payload.transitionTime.unsignedShortValue;
+    request.optionsMask = payload.optionsMask.unsignedCharValue;
+    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)reportAttributeColorTemperatureWithResponseHandler:(ResponseHandler)responseHandler
+- (void)moveColor:(CHIPColorControlClusterMoveColorPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(
-        self.callbackQueue, responseHandler,
-        ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeColorTemperature(success);
-        },
-        true);
-}
+    ListFreer listFreer;
+    ColorControl::Commands::MoveColor::Type request;
+    request.rateX = payload.rateX.shortValue;
+    request.rateY = payload.rateY.shortValue;
+    request.optionsMask = payload.optionsMask.unsignedCharValue;
+    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
 
-- (void)readAttributeColorModeWithResponseHandler:(ResponseHandler)responseHandler
-{
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorMode(success, failure);
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeColorControlOptionsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)moveColorTemperature:(CHIPColorControlClusterMoveColorTemperaturePayload * _Nonnull)payload
+             responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorControlOptions(success, failure);
+    ListFreer listFreer;
+    ColorControl::Commands::MoveColorTemperature::Type request;
+    request.moveMode = static_cast<std::remove_reference_t<decltype(request.moveMode)>>(payload.moveMode.unsignedCharValue);
+    request.rate = payload.rate.unsignedShortValue;
+    request.colorTemperatureMinimum = payload.colorTemperatureMinimum.unsignedShortValue;
+    request.colorTemperatureMaximum = payload.colorTemperatureMaximum.unsignedShortValue;
+    request.optionsMask = payload.optionsMask.unsignedCharValue;
+    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)writeAttributeColorControlOptionsWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)moveHue:(CHIPColorControlClusterMoveHuePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = ColorControl::Attributes::ColorControlOptions::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedCharValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+    ListFreer listFreer;
+    ColorControl::Commands::MoveHue::Type request;
+    request.moveMode = static_cast<std::remove_reference_t<decltype(request.moveMode)>>(payload.moveMode.unsignedCharValue);
+    request.rate = payload.rate.unsignedCharValue;
+    request.optionsMask = payload.optionsMask.unsignedCharValue;
+    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeNumberOfPrimariesWithResponseHandler:(ResponseHandler)responseHandler
+- (void)moveSaturation:(CHIPColorControlClusterMoveSaturationPayload * _Nonnull)payload
+       responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNumberOfPrimaries(success, failure);
+    ListFreer listFreer;
+    ColorControl::Commands::MoveSaturation::Type request;
+    request.moveMode = static_cast<std::remove_reference_t<decltype(request.moveMode)>>(payload.moveMode.unsignedCharValue);
+    request.rate = payload.rate.unsignedCharValue;
+    request.optionsMask = payload.optionsMask.unsignedCharValue;
+    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributePrimary1XWithResponseHandler:(ResponseHandler)responseHandler
+- (void)moveToColor:(CHIPColorControlClusterMoveToColorPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePrimary1X(success, failure);
+    ListFreer listFreer;
+    ColorControl::Commands::MoveToColor::Type request;
+    request.colorX = payload.colorX.unsignedShortValue;
+    request.colorY = payload.colorY.unsignedShortValue;
+    request.transitionTime = payload.transitionTime.unsignedShortValue;
+    request.optionsMask = payload.optionsMask.unsignedCharValue;
+    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributePrimary1YWithResponseHandler:(ResponseHandler)responseHandler
+- (void)moveToColorTemperature:(CHIPColorControlClusterMoveToColorTemperaturePayload * _Nonnull)payload
+               responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePrimary1Y(success, failure);
+    ListFreer listFreer;
+    ColorControl::Commands::MoveToColorTemperature::Type request;
+    request.colorTemperature = payload.colorTemperature.unsignedShortValue;
+    request.transitionTime = payload.transitionTime.unsignedShortValue;
+    request.optionsMask = payload.optionsMask.unsignedCharValue;
+    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributePrimary1IntensityWithResponseHandler:(ResponseHandler)responseHandler
+- (void)moveToHue:(CHIPColorControlClusterMoveToHuePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePrimary1Intensity(success, failure);
+    ListFreer listFreer;
+    ColorControl::Commands::MoveToHue::Type request;
+    request.hue = payload.hue.unsignedCharValue;
+    request.direction = static_cast<std::remove_reference_t<decltype(request.direction)>>(payload.direction.unsignedCharValue);
+    request.transitionTime = payload.transitionTime.unsignedShortValue;
+    request.optionsMask = payload.optionsMask.unsignedCharValue;
+    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributePrimary2XWithResponseHandler:(ResponseHandler)responseHandler
+- (void)moveToHueAndSaturation:(CHIPColorControlClusterMoveToHueAndSaturationPayload * _Nonnull)payload
+               responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePrimary2X(success, failure);
+    ListFreer listFreer;
+    ColorControl::Commands::MoveToHueAndSaturation::Type request;
+    request.hue = payload.hue.unsignedCharValue;
+    request.saturation = payload.saturation.unsignedCharValue;
+    request.transitionTime = payload.transitionTime.unsignedShortValue;
+    request.optionsMask = payload.optionsMask.unsignedCharValue;
+    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributePrimary2YWithResponseHandler:(ResponseHandler)responseHandler
+- (void)moveToSaturation:(CHIPColorControlClusterMoveToSaturationPayload * _Nonnull)payload
+         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePrimary2Y(success, failure);
+    ListFreer listFreer;
+    ColorControl::Commands::MoveToSaturation::Type request;
+    request.saturation = payload.saturation.unsignedCharValue;
+    request.transitionTime = payload.transitionTime.unsignedShortValue;
+    request.optionsMask = payload.optionsMask.unsignedCharValue;
+    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributePrimary2IntensityWithResponseHandler:(ResponseHandler)responseHandler
+- (void)stepColor:(CHIPColorControlClusterStepColorPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePrimary2Intensity(success, failure);
+    ListFreer listFreer;
+    ColorControl::Commands::StepColor::Type request;
+    request.stepX = payload.stepX.shortValue;
+    request.stepY = payload.stepY.shortValue;
+    request.transitionTime = payload.transitionTime.unsignedShortValue;
+    request.optionsMask = payload.optionsMask.unsignedCharValue;
+    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributePrimary3XWithResponseHandler:(ResponseHandler)responseHandler
+- (void)stepColorTemperature:(CHIPColorControlClusterStepColorTemperaturePayload * _Nonnull)payload
+             responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePrimary3X(success, failure);
+    ListFreer listFreer;
+    ColorControl::Commands::StepColorTemperature::Type request;
+    request.stepMode = static_cast<std::remove_reference_t<decltype(request.stepMode)>>(payload.stepMode.unsignedCharValue);
+    request.stepSize = payload.stepSize.unsignedShortValue;
+    request.transitionTime = payload.transitionTime.unsignedShortValue;
+    request.colorTemperatureMinimum = payload.colorTemperatureMinimum.unsignedShortValue;
+    request.colorTemperatureMaximum = payload.colorTemperatureMaximum.unsignedShortValue;
+    request.optionsMask = payload.optionsMask.unsignedCharValue;
+    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributePrimary3YWithResponseHandler:(ResponseHandler)responseHandler
+- (void)stepHue:(CHIPColorControlClusterStepHuePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePrimary3Y(success, failure);
+    ListFreer listFreer;
+    ColorControl::Commands::StepHue::Type request;
+    request.stepMode = static_cast<std::remove_reference_t<decltype(request.stepMode)>>(payload.stepMode.unsignedCharValue);
+    request.stepSize = payload.stepSize.unsignedCharValue;
+    request.transitionTime = payload.transitionTime.unsignedCharValue;
+    request.optionsMask = payload.optionsMask.unsignedCharValue;
+    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributePrimary3IntensityWithResponseHandler:(ResponseHandler)responseHandler
+- (void)stepSaturation:(CHIPColorControlClusterStepSaturationPayload * _Nonnull)payload
+       responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePrimary3Intensity(success, failure);
+    ListFreer listFreer;
+    ColorControl::Commands::StepSaturation::Type request;
+    request.stepMode = static_cast<std::remove_reference_t<decltype(request.stepMode)>>(payload.stepMode.unsignedCharValue);
+    request.stepSize = payload.stepSize.unsignedCharValue;
+    request.transitionTime = payload.transitionTime.unsignedCharValue;
+    request.optionsMask = payload.optionsMask.unsignedCharValue;
+    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributePrimary4XWithResponseHandler:(ResponseHandler)responseHandler
+- (void)stopMoveStep:(CHIPColorControlClusterStopMoveStepPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePrimary4X(success, failure);
+    ListFreer listFreer;
+    ColorControl::Commands::StopMoveStep::Type request;
+    request.optionsMask = payload.optionsMask.unsignedCharValue;
+    request.optionsOverride = payload.optionsOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributePrimary4YWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeCurrentHueWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePrimary4Y(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCurrentHue(success, failure);
     });
 }
 
-- (void)readAttributePrimary4IntensityWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeCurrentHueWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePrimary4Intensity(success, failure);
+        return self.cppCluster.SubscribeAttributeCurrentHue(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributePrimary5XWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeCurrentHueWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePrimary5X(success, failure);
-    });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentHue(success);
+        },
+        true);
 }
 
-- (void)readAttributePrimary5YWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeCurrentSaturationWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePrimary5Y(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCurrentSaturation(success, failure);
     });
 }
 
-- (void)readAttributePrimary5IntensityWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeCurrentSaturationWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePrimary5Intensity(success, failure);
+        return self.cppCluster.SubscribeAttributeCurrentSaturation(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributePrimary6XWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeCurrentSaturationWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePrimary6X(success, failure);
-    });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentSaturation(success);
+        },
+        true);
 }
 
-- (void)readAttributePrimary6YWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRemainingTimeWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePrimary6Y(success, failure);
-    });
-}
-
-- (void)readAttributePrimary6IntensityWithResponseHandler:(ResponseHandler)responseHandler
-{
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePrimary6Intensity(success, failure);
+        return self.cppCluster.ReadAttributeRemainingTime(success, failure);
     });
 }
 
-- (void)readAttributeWhitePointXWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRemainingTimeWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeWhitePointX(success, failure);
+        return self.cppCluster.SubscribeAttributeRemainingTime(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeWhitePointXWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRemainingTimeWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = ColorControl::Attributes::WhitePointX::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedShortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRemainingTime(success);
+        },
+        true);
 }
 
-- (void)readAttributeWhitePointYWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeCurrentXWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeWhitePointY(success, failure);
+        return self.cppCluster.ReadAttributeCurrentX(success, failure);
     });
 }
 
-- (void)writeAttributeWhitePointYWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeCurrentXWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = ColorControl::Attributes::WhitePointY::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedShortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCurrentX(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeColorPointRXWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeCurrentXWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorPointRX(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentX(success);
+        },
+        true);
 }
 
-- (void)writeAttributeColorPointRXWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeCurrentYWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = ColorControl::Attributes::ColorPointRX::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedShortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCurrentY(success, failure);
     });
 }
 
-- (void)readAttributeColorPointRYWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeCurrentYWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorPointRY(success, failure);
+        return self.cppCluster.SubscribeAttributeCurrentY(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeColorPointRYWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeCurrentYWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = ColorControl::Attributes::ColorPointRY::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedShortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentY(success);
+        },
+        true);
 }
 
-- (void)readAttributeColorPointRIntensityWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeDriftCompensationWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorPointRIntensity(success, failure);
+        return self.cppCluster.ReadAttributeDriftCompensation(success, failure);
     });
 }
 
-- (void)writeAttributeColorPointRIntensityWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeDriftCompensationWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = ColorControl::Attributes::ColorPointRIntensity::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedCharValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeDriftCompensation(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeColorPointGXWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeDriftCompensationWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorPointGX(success, failure);
-    });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeDriftCompensation(success);
+        },
+        true);
 }
 
-- (void)writeAttributeColorPointGXWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeCompensationTextWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = ColorControl::Attributes::ColorPointGX::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedShortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCompensationText(success, failure);
     });
 }
 
-- (void)readAttributeColorPointGYWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeCompensationTextWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorPointGY(success, failure);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCompensationText(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeColorPointGYWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeCompensationTextWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = ColorControl::Attributes::ColorPointGY::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedShortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPCharStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCompensationText(success);
+        },
+        true);
 }
 
-- (void)readAttributeColorPointGIntensityWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeColorTemperatureWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorPointGIntensity(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeColorTemperature(success, failure);
     });
 }
 
-- (void)writeAttributeColorPointGIntensityWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeColorTemperatureWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = ColorControl::Attributes::ColorPointGIntensity::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedCharValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeColorTemperature(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeColorPointBXWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeColorTemperatureWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorPointBX(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorTemperature(success);
+        },
+        true);
 }
 
-- (void)writeAttributeColorPointBXWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeColorModeWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = ColorControl::Attributes::ColorPointBX::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedShortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeColorMode(success, failure);
     });
 }
 
-- (void)readAttributeColorPointBYWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeColorModeWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorPointBY(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeColorMode(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeColorPointBYWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeColorModeWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = ColorControl::Attributes::ColorPointBY::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedShortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorMode(success);
+        },
+        true);
 }
 
-- (void)readAttributeColorPointBIntensityWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeColorControlOptionsWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorPointBIntensity(success, failure);
+        return self.cppCluster.ReadAttributeColorControlOptions(success, failure);
     });
 }
 
-- (void)writeAttributeColorPointBIntensityWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeColorControlOptionsWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         ListFreer listFreer;
-        using TypeInfo = ColorControl::Attributes::ColorPointBIntensity::TypeInfo;
+        using TypeInfo = ColorControl::Attributes::ColorControlOptions::TypeInfo;
         TypeInfo::Type cppValue;
         cppValue = value.unsignedCharValue;
         auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
@@ -1929,1237 +2526,1274 @@ new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
-- (void)readAttributeEnhancedCurrentHueWithResponseHandler:(ResponseHandler)responseHandler
-{
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeEnhancedCurrentHue(success, failure);
-    });
-}
-
-- (void)readAttributeEnhancedColorModeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeColorControlOptionsWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeEnhancedColorMode(success, failure);
+        return self.cppCluster.SubscribeAttributeColorControlOptions(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeColorLoopActiveWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeColorControlOptionsWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorLoopActive(success, failure);
-    });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorControlOptions(success);
+        },
+        true);
 }
 
-- (void)readAttributeColorLoopDirectionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeNumberOfPrimariesWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorLoopDirection(success, failure);
+        return self.cppCluster.ReadAttributeNumberOfPrimaries(success, failure);
     });
 }
 
-- (void)readAttributeColorLoopTimeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNumberOfPrimariesWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorLoopTime(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeNumberOfPrimaries(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeColorLoopStartEnhancedHueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeNumberOfPrimariesWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorLoopStartEnhancedHue(success, failure);
-    });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNumberOfPrimaries(success);
+        },
+        true);
 }
 
-- (void)readAttributeColorLoopStoredEnhancedHueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePrimary1XWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorLoopStoredEnhancedHue(success, failure);
+        return self.cppCluster.ReadAttributePrimary1X(success, failure);
     });
 }
 
-- (void)readAttributeColorCapabilitiesWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePrimary1XWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorCapabilities(success, failure);
+        return self.cppCluster.SubscribeAttributePrimary1X(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeColorTempPhysicalMinWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePrimary1XWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorTempPhysicalMin(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePrimary1X(success);
+        },
+        true);
 }
 
-- (void)readAttributeColorTempPhysicalMaxWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePrimary1YWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeColorTempPhysicalMax(success, failure);
+        return self.cppCluster.ReadAttributePrimary1Y(success, failure);
     });
 }
 
-- (void)readAttributeCoupleColorTempToLevelMinMiredsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePrimary1YWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCoupleColorTempToLevelMinMireds(success, failure);
+        return self.cppCluster.SubscribeAttributePrimary1Y(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeStartUpColorTemperatureMiredsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePrimary1YWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeStartUpColorTemperatureMireds(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePrimary1Y(success);
+        },
+        true);
 }
 
-- (void)writeAttributeStartUpColorTemperatureMiredsWithValue:(NSNumber * _Nonnull)value
-                                             responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePrimary1IntensityWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = ColorControl::Attributes::StartUpColorTemperatureMireds::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedShortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePrimary1Intensity(success, failure);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePrimary1IntensityWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePrimary1Intensity(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
-
-@implementation CHIPContentLauncher
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributePrimary1IntensityWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePrimary1Intensity(success);
+        },
+        true);
 }
 
-- (void)launchContent:(CHIPContentLauncherClusterLaunchContentPayload * _Nonnull)payload
-      responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePrimary2XWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    ContentLauncher::Commands::LaunchContent::Type request;
-    request.autoPlay = payload.autoPlay.boolValue;
-    request.data = [self asCharSpan:payload.data];
-
-    new CHIPContentLauncherClusterLaunchContentResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPContentLauncherClusterLaunchContentResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePrimary2X(success, failure);
+    });
 }
 
-- (void)launchURL:(CHIPContentLauncherClusterLaunchURLPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePrimary2XWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    ContentLauncher::Commands::LaunchURL::Type request;
-    request.contentURL = [self asCharSpan:payload.contentURL];
-    request.displayString = [self asCharSpan:payload.displayString];
-
-    new CHIPContentLauncherClusterLaunchURLResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPContentLauncherClusterLaunchURLResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePrimary2X(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)readAttributeAcceptsHeaderListWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePrimary2XWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPContentLauncherAcceptsHeaderListListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeAcceptsHeaderList(success, failure);
-        });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePrimary2X(success);
+        },
+        true);
 }
 
-- (void)readAttributeSupportedStreamingTypesWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePrimary2YWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPContentLauncherSupportedStreamingTypesListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeSupportedStreamingTypes(success, failure);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePrimary2Y(success, failure);
+    });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePrimary2YWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+        return self.cppCluster.SubscribeAttributePrimary2Y(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
-
-@implementation CHIPDescriptor
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributePrimary2YWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePrimary2Y(success);
+        },
+        true);
 }
 
-- (void)readAttributeDeviceListWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePrimary2IntensityWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDescriptorDeviceListListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeDeviceList(success, failure);
-        });
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePrimary2Intensity(success, failure);
+    });
 }
 
-- (void)readAttributeServerListWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePrimary2IntensityWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDescriptorServerListListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeServerList(success, failure);
-        });
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePrimary2Intensity(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)readAttributeClientListWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePrimary2IntensityWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDescriptorClientListListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeClientList(success, failure);
-        });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePrimary2Intensity(success);
+        },
+        true);
 }
 
-- (void)readAttributePartsListWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePrimary3XWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDescriptorPartsListListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributePartsList(success, failure);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePrimary3X(success, failure);
+    });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePrimary3XWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+        return self.cppCluster.SubscribeAttributePrimary3X(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
-
-@implementation CHIPDiagnosticLogs
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributePrimary3XWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePrimary3X(success);
+        },
+        true);
 }
 
-- (void)retrieveLogsRequest:(CHIPDiagnosticLogsClusterRetrieveLogsRequestPayload * _Nonnull)payload
-            responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePrimary3YWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DiagnosticLogs::Commands::RetrieveLogsRequest::Type request;
-    request.intent = static_cast<std::remove_reference_t<decltype(request.intent)>>(payload.intent.unsignedCharValue);
-    request.requestedProtocol
-        = static_cast<std::remove_reference_t<decltype(request.requestedProtocol)>>(payload.requestedProtocol.unsignedCharValue);
-    request.transferFileDesignator = [self asByteSpan:payload.transferFileDesignator];
-
-    new CHIPDiagnosticLogsClusterRetrieveLogsResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDiagnosticLogsClusterRetrieveLogsResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePrimary3Y(success, failure);
+    });
 }
 
-@end
-
-@implementation CHIPDoorLock
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)subscribeAttributePrimary3YWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePrimary3Y(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)clearAllPins:(CHIPDoorLockClusterClearAllPinsPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePrimary3YWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::ClearAllPins::Type request;
-
-    new CHIPDoorLockClusterClearAllPinsResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterClearAllPinsResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePrimary3Y(success);
+        },
+        true);
 }
 
-- (void)clearAllRfids:(CHIPDoorLockClusterClearAllRfidsPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePrimary3IntensityWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::ClearAllRfids::Type request;
-
-    new CHIPDoorLockClusterClearAllRfidsResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterClearAllRfidsResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePrimary3Intensity(success, failure);
+    });
 }
 
-- (void)clearHolidaySchedule:(CHIPDoorLockClusterClearHolidaySchedulePayload * _Nonnull)payload
-             responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePrimary3IntensityWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::ClearHolidaySchedule::Type request;
-    request.scheduleId = payload.scheduleId.unsignedCharValue;
-
-    new CHIPDoorLockClusterClearHolidayScheduleResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterClearHolidayScheduleResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePrimary3Intensity(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)clearPin:(CHIPDoorLockClusterClearPinPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePrimary3IntensityWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::ClearPin::Type request;
-    request.userId = payload.userId.unsignedShortValue;
-
-    new CHIPDoorLockClusterClearPinResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterClearPinResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePrimary3Intensity(success);
+        },
+        true);
 }
 
-- (void)clearRfid:(CHIPDoorLockClusterClearRfidPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePrimary4XWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::ClearRfid::Type request;
-    request.userId = payload.userId.unsignedShortValue;
-
-    new CHIPDoorLockClusterClearRfidResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterClearRfidResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePrimary4X(success, failure);
+    });
 }
 
-- (void)clearWeekdaySchedule:(CHIPDoorLockClusterClearWeekdaySchedulePayload * _Nonnull)payload
-             responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePrimary4XWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::ClearWeekdaySchedule::Type request;
-    request.scheduleId = payload.scheduleId.unsignedCharValue;
-    request.userId = payload.userId.unsignedShortValue;
-
-    new CHIPDoorLockClusterClearWeekdayScheduleResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterClearWeekdayScheduleResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePrimary4X(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)clearYeardaySchedule:(CHIPDoorLockClusterClearYeardaySchedulePayload * _Nonnull)payload
-             responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePrimary4XWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::ClearYeardaySchedule::Type request;
-    request.scheduleId = payload.scheduleId.unsignedCharValue;
-    request.userId = payload.userId.unsignedShortValue;
-
-    new CHIPDoorLockClusterClearYeardayScheduleResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterClearYeardayScheduleResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePrimary4X(success);
+        },
+        true);
 }
 
-- (void)getHolidaySchedule:(CHIPDoorLockClusterGetHolidaySchedulePayload * _Nonnull)payload
-           responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePrimary4YWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::GetHolidaySchedule::Type request;
-    request.scheduleId = payload.scheduleId.unsignedCharValue;
-
-    new CHIPDoorLockClusterGetHolidayScheduleResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterGetHolidayScheduleResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePrimary4Y(success, failure);
+    });
 }
 
-- (void)getLogRecord:(CHIPDoorLockClusterGetLogRecordPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePrimary4YWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::GetLogRecord::Type request;
-    request.logIndex = payload.logIndex.unsignedShortValue;
-
-    new CHIPDoorLockClusterGetLogRecordResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterGetLogRecordResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePrimary4Y(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)getPin:(CHIPDoorLockClusterGetPinPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePrimary4YWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::GetPin::Type request;
-    request.userId = payload.userId.unsignedShortValue;
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePrimary4Y(success);
+        },
+        true);
+}
 
-    new CHIPDoorLockClusterGetPinResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterGetPinResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)readAttributePrimary4IntensityWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePrimary4Intensity(success, failure);
+    });
 }
 
-- (void)getRfid:(CHIPDoorLockClusterGetRfidPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePrimary4IntensityWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::GetRfid::Type request;
-    request.userId = payload.userId.unsignedShortValue;
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePrimary4Intensity(success, failure, minInterval, maxInterval);
+    });
+}
 
-    new CHIPDoorLockClusterGetRfidResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterGetRfidResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)reportAttributePrimary4IntensityWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePrimary4Intensity(success);
+        },
+        true);
 }
 
-- (void)getUserType:(CHIPDoorLockClusterGetUserTypePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePrimary5XWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::GetUserType::Type request;
-    request.userId = payload.userId.unsignedShortValue;
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePrimary5X(success, failure);
+    });
+}
 
-    new CHIPDoorLockClusterGetUserTypeResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterGetUserTypeResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)subscribeAttributePrimary5XWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePrimary5X(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)getWeekdaySchedule:(CHIPDoorLockClusterGetWeekdaySchedulePayload * _Nonnull)payload
-           responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePrimary5XWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::GetWeekdaySchedule::Type request;
-    request.scheduleId = payload.scheduleId.unsignedCharValue;
-    request.userId = payload.userId.unsignedShortValue;
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePrimary5X(success);
+        },
+        true);
+}
 
-    new CHIPDoorLockClusterGetWeekdayScheduleResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterGetWeekdayScheduleResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)readAttributePrimary5YWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePrimary5Y(success, failure);
+    });
 }
 
-- (void)getYeardaySchedule:(CHIPDoorLockClusterGetYeardaySchedulePayload * _Nonnull)payload
-           responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePrimary5YWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::GetYeardaySchedule::Type request;
-    request.scheduleId = payload.scheduleId.unsignedCharValue;
-    request.userId = payload.userId.unsignedShortValue;
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePrimary5Y(success, failure, minInterval, maxInterval);
+    });
+}
 
-    new CHIPDoorLockClusterGetYeardayScheduleResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterGetYeardayScheduleResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)reportAttributePrimary5YWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePrimary5Y(success);
+        },
+        true);
 }
 
-- (void)lockDoor:(CHIPDoorLockClusterLockDoorPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePrimary5IntensityWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::LockDoor::Type request;
-    request.pin = [self asByteSpan:payload.pin];
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePrimary5Intensity(success, failure);
+    });
+}
 
-    new CHIPDoorLockClusterLockDoorResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterLockDoorResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)subscribeAttributePrimary5IntensityWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePrimary5Intensity(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)setHolidaySchedule:(CHIPDoorLockClusterSetHolidaySchedulePayload * _Nonnull)payload
-           responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePrimary5IntensityWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::SetHolidaySchedule::Type request;
-    request.scheduleId = payload.scheduleId.unsignedCharValue;
-    request.localStartTime = payload.localStartTime.unsignedIntValue;
-    request.localEndTime = payload.localEndTime.unsignedIntValue;
-    request.operatingModeDuringHoliday = payload.operatingModeDuringHoliday.unsignedCharValue;
-
-    new CHIPDoorLockClusterSetHolidayScheduleResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterSetHolidayScheduleResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
-}
-
-- (void)setPin:(CHIPDoorLockClusterSetPinPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
-{
-    ListFreer listFreer;
-    DoorLock::Commands::SetPin::Type request;
-    request.userId = payload.userId.unsignedShortValue;
-    request.userStatus = static_cast<std::remove_reference_t<decltype(request.userStatus)>>(payload.userStatus.unsignedCharValue);
-    request.userType = static_cast<std::remove_reference_t<decltype(request.userType)>>(payload.userType.unsignedCharValue);
-    request.pin = [self asByteSpan:payload.pin];
-
-    new CHIPDoorLockClusterSetPinResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterSetPinResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePrimary5Intensity(success);
+        },
+        true);
 }
 
-- (void)setRfid:(CHIPDoorLockClusterSetRfidPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePrimary6XWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::SetRfid::Type request;
-    request.userId = payload.userId.unsignedShortValue;
-    request.userStatus = static_cast<std::remove_reference_t<decltype(request.userStatus)>>(payload.userStatus.unsignedCharValue);
-    request.userType = static_cast<std::remove_reference_t<decltype(request.userType)>>(payload.userType.unsignedCharValue);
-    request.id = [self asByteSpan:payload.id];
-
-    new CHIPDoorLockClusterSetRfidResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterSetRfidResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePrimary6X(success, failure);
+    });
 }
 
-- (void)setUserType:(CHIPDoorLockClusterSetUserTypePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePrimary6XWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::SetUserType::Type request;
-    request.userId = payload.userId.unsignedShortValue;
-    request.userType = static_cast<std::remove_reference_t<decltype(request.userType)>>(payload.userType.unsignedCharValue);
-
-    new CHIPDoorLockClusterSetUserTypeResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterSetUserTypeResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePrimary6X(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)setWeekdaySchedule:(CHIPDoorLockClusterSetWeekdaySchedulePayload * _Nonnull)payload
-           responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePrimary6XWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::SetWeekdaySchedule::Type request;
-    request.scheduleId = payload.scheduleId.unsignedCharValue;
-    request.userId = payload.userId.unsignedShortValue;
-    request.daysMask = static_cast<std::remove_reference_t<decltype(request.daysMask)>>(payload.daysMask.unsignedCharValue);
-    request.startHour = payload.startHour.unsignedCharValue;
-    request.startMinute = payload.startMinute.unsignedCharValue;
-    request.endHour = payload.endHour.unsignedCharValue;
-    request.endMinute = payload.endMinute.unsignedCharValue;
-
-    new CHIPDoorLockClusterSetWeekdayScheduleResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterSetWeekdayScheduleResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePrimary6X(success);
+        },
+        true);
 }
 
-- (void)setYeardaySchedule:(CHIPDoorLockClusterSetYeardaySchedulePayload * _Nonnull)payload
-           responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePrimary6YWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::SetYeardaySchedule::Type request;
-    request.scheduleId = payload.scheduleId.unsignedCharValue;
-    request.userId = payload.userId.unsignedShortValue;
-    request.localStartTime = payload.localStartTime.unsignedIntValue;
-    request.localEndTime = payload.localEndTime.unsignedIntValue;
-
-    new CHIPDoorLockClusterSetYeardayScheduleResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterSetYeardayScheduleResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePrimary6Y(success, failure);
+    });
 }
 
-- (void)unlockDoor:(CHIPDoorLockClusterUnlockDoorPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePrimary6YWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::UnlockDoor::Type request;
-    request.pin = [self asByteSpan:payload.pin];
-
-    new CHIPDoorLockClusterUnlockDoorResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterUnlockDoorResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePrimary6Y(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)unlockWithTimeout:(CHIPDoorLockClusterUnlockWithTimeoutPayload * _Nonnull)payload
-          responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePrimary6YWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    DoorLock::Commands::UnlockWithTimeout::Type request;
-    request.timeoutInSeconds = payload.timeoutInSeconds.unsignedShortValue;
-    request.pin = [self asByteSpan:payload.pin];
-
-    new CHIPDoorLockClusterUnlockWithTimeoutResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPDoorLockClusterUnlockWithTimeoutResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePrimary6Y(success);
+        },
+        true);
 }
 
-- (void)readAttributeLockStateWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePrimary6IntensityWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeLockState(success, failure);
+        return self.cppCluster.ReadAttributePrimary6Intensity(success, failure);
     });
 }
 
-- (void)subscribeAttributeLockStateWithMinInterval:(uint16_t)minInterval
-                                       maxInterval:(uint16_t)maxInterval
-                                   responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePrimary6IntensityWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeLockState(success, failure, minInterval, maxInterval);
+        return self.cppCluster.SubscribeAttributePrimary6Intensity(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)reportAttributeLockStateWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePrimary6IntensityWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(
         self.callbackQueue, responseHandler,
         ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeLockState(success);
+            return self.cppCluster.ReportAttributePrimary6Intensity(success);
         },
         true);
 }
 
-- (void)readAttributeLockTypeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeWhitePointXWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeLockType(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeWhitePointX(success, failure);
     });
 }
 
-- (void)readAttributeActuatorEnabledWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeWhitePointXWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeActuatorEnabled(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = ColorControl::Attributes::WhitePointX::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedShortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeWhitePointXWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+        return self.cppCluster.SubscribeAttributeWhitePointX(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
-
-@implementation CHIPElectricalMeasurement
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributeWhitePointXWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeWhitePointX(success);
+        },
+        true);
 }
 
-- (void)readAttributeMeasurementTypeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeWhitePointYWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMeasurementType(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeWhitePointY(success, failure);
     });
 }
 
-- (void)readAttributeTotalActivePowerWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeWhitePointYWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTotalActivePower(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = ColorControl::Attributes::WhitePointY::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedShortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeRmsVoltageWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeWhitePointYWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRmsVoltage(success, failure);
+        return self.cppCluster.SubscribeAttributeWhitePointY(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeRmsVoltageMinWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeWhitePointYWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRmsVoltageMin(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeWhitePointY(success);
+        },
+        true);
 }
 
-- (void)readAttributeRmsVoltageMaxWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeColorPointRXWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRmsVoltageMax(success, failure);
+        return self.cppCluster.ReadAttributeColorPointRX(success, failure);
     });
 }
 
-- (void)readAttributeRmsCurrentWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeColorPointRXWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRmsCurrent(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = ColorControl::Attributes::ColorPointRX::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedShortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeRmsCurrentMinWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeColorPointRXWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRmsCurrentMin(success, failure);
+        return self.cppCluster.SubscribeAttributeColorPointRX(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeRmsCurrentMaxWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeColorPointRXWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRmsCurrentMax(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorPointRX(success);
+        },
+        true);
 }
 
-- (void)readAttributeActivePowerWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeColorPointRYWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeActivePower(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeColorPointRY(success, failure);
     });
 }
 
-- (void)readAttributeActivePowerMinWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeColorPointRYWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeActivePowerMin(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = ColorControl::Attributes::ColorPointRY::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedShortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeActivePowerMaxWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeColorPointRYWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeActivePowerMax(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeColorPointRY(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeColorPointRYWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorPointRY(success);
+        },
+        true);
+}
+
+- (void)readAttributeColorPointRIntensityWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeColorPointRIntensity(success, failure);
     });
 }
 
-@end
+- (void)writeAttributeColorPointRIntensityWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = ColorControl::Attributes::ColorPointRIntensity::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedCharValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
 
-@implementation CHIPEthernetNetworkDiagnostics
+- (void)subscribeAttributeColorPointRIntensityWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeColorPointRIntensity(success, failure, minInterval, maxInterval);
+    });
+}
 
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributeColorPointRIntensityWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorPointRIntensity(success);
+        },
+        true);
 }
 
-- (void)resetCounts:(CHIPEthernetNetworkDiagnosticsClusterResetCountsPayload * _Nonnull)payload
-    responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeColorPointGXWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    EthernetNetworkDiagnostics::Commands::ResetCounts::Type request;
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeColorPointGX(success, failure);
+    });
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+- (void)writeAttributeColorPointGXWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = ColorControl::Attributes::ColorPointGX::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedShortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributePHYRateWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeColorPointGXWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePHYRate(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeColorPointGX(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeFullDuplexWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeColorPointGXWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeFullDuplex(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorPointGX(success);
+        },
+        true);
 }
 
-- (void)readAttributePacketRxCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeColorPointGYWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePacketRxCount(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeColorPointGY(success, failure);
     });
 }
 
-- (void)readAttributePacketTxCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeColorPointGYWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePacketTxCount(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = ColorControl::Attributes::ColorPointGY::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedShortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeTxErrCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeColorPointGYWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTxErrCount(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeColorPointGY(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeCollisionCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeColorPointGYWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCollisionCount(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorPointGY(success);
+        },
+        true);
 }
 
-- (void)readAttributeOverrunCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeColorPointGIntensityWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOverrunCount(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeColorPointGIntensity(success, failure);
     });
 }
 
-- (void)readAttributeCarrierDetectWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeColorPointGIntensityWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCarrierDetect(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = ColorControl::Attributes::ColorPointGIntensity::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedCharValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeTimeSinceResetWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeColorPointGIntensityWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTimeSinceReset(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeColorPointGIntensity(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeColorPointGIntensityWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorPointGIntensity(success);
+        },
+        true);
+}
+
+- (void)readAttributeColorPointBXWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+        return self.cppCluster.ReadAttributeColorPointBX(success, failure);
     });
 }
 
-@end
-
-@implementation CHIPFixedLabel
+- (void)writeAttributeColorPointBXWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = ColorControl::Attributes::ColorPointBX::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedShortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
 
-- (chip::Controller::ClusterBase *)getCluster
+- (void)subscribeAttributeColorPointBXWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeColorPointBX(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)readAttributeLabelListWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeColorPointBXWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPFixedLabelLabelListListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeLabelList(success, failure);
-        });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorPointBX(success);
+        },
+        true);
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeColorPointBYWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+        return self.cppCluster.ReadAttributeColorPointBY(success, failure);
     });
 }
 
-@end
+- (void)writeAttributeColorPointBYWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = ColorControl::Attributes::ColorPointBY::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedShortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
 
-@implementation CHIPFlowMeasurement
+- (void)subscribeAttributeColorPointBYWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeColorPointBY(success, failure, minInterval, maxInterval);
+    });
+}
 
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributeColorPointBYWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorPointBY(success);
+        },
+        true);
 }
 
-- (void)readAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeColorPointBIntensityWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMeasuredValue(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeColorPointBIntensity(success, failure);
     });
 }
 
-- (void)readAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeColorPointBIntensityWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMinMeasuredValue(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = ColorControl::Attributes::ColorPointBIntensity::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedCharValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeColorPointBIntensityWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMaxMeasuredValue(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeColorPointBIntensity(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeColorPointBIntensityWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorPointBIntensity(success);
+        },
+        true);
+}
+
+- (void)readAttributeEnhancedCurrentHueWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTolerance(success, failure);
+        return self.cppCluster.ReadAttributeEnhancedCurrentHue(success, failure);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeEnhancedCurrentHueWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+        return self.cppCluster.SubscribeAttributeEnhancedCurrentHue(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
-
-@implementation CHIPGeneralCommissioning
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributeEnhancedCurrentHueWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeEnhancedCurrentHue(success);
+        },
+        true);
 }
 
-- (void)armFailSafe:(CHIPGeneralCommissioningClusterArmFailSafePayload * _Nonnull)payload
-    responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeEnhancedColorModeWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    GeneralCommissioning::Commands::ArmFailSafe::Type request;
-    request.expiryLengthSeconds = payload.expiryLengthSeconds.unsignedShortValue;
-    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
-    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
-
-    new CHIPGeneralCommissioningClusterArmFailSafeResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPGeneralCommissioningClusterArmFailSafeResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeEnhancedColorMode(success, failure);
+    });
 }
 
-- (void)commissioningComplete:(CHIPGeneralCommissioningClusterCommissioningCompletePayload * _Nonnull)payload
-              responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeEnhancedColorModeWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    GeneralCommissioning::Commands::CommissioningComplete::Type request;
-
-    new CHIPGeneralCommissioningClusterCommissioningCompleteResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn
-                = Callback<CHIPGeneralCommissioningClusterCommissioningCompleteResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeEnhancedColorMode(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)setRegulatoryConfig:(CHIPGeneralCommissioningClusterSetRegulatoryConfigPayload * _Nonnull)payload
-            responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeEnhancedColorModeWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    GeneralCommissioning::Commands::SetRegulatoryConfig::Type request;
-    request.location = static_cast<std::remove_reference_t<decltype(request.location)>>(payload.location.unsignedCharValue);
-    request.countryCode = [self asCharSpan:payload.countryCode];
-    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
-    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
-
-    new CHIPGeneralCommissioningClusterSetRegulatoryConfigResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn
-                = Callback<CHIPGeneralCommissioningClusterSetRegulatoryConfigResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeEnhancedColorMode(success);
+        },
+        true);
 }
 
-- (void)readAttributeBreadcrumbWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeColorLoopActiveWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeBreadcrumb(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeColorLoopActive(success, failure);
     });
 }
 
-- (void)writeAttributeBreadcrumbWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeColorLoopActiveWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = GeneralCommissioning::Attributes::Breadcrumb::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedLongLongValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeColorLoopActive(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeBasicCommissioningInfoListWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeColorLoopActiveWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPGeneralCommissioningBasicCommissioningInfoListListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeBasicCommissioningInfoList(success, failure);
-        });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorLoopActive(success);
+        },
+        true);
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeColorLoopDirectionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeColorLoopDirection(success, failure);
     });
 }
 
-@end
-
-@implementation CHIPGeneralDiagnostics
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)subscribeAttributeColorLoopDirectionWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeColorLoopDirection(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)readAttributeNetworkInterfacesWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeColorLoopDirectionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPGeneralDiagnosticsNetworkInterfacesListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeNetworkInterfaces(success, failure);
-        });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorLoopDirection(success);
+        },
+        true);
 }
 
-- (void)readAttributeRebootCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeColorLoopTimeWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRebootCount(success, failure);
+        return self.cppCluster.ReadAttributeColorLoopTime(success, failure);
     });
 }
 
-- (void)readAttributeUpTimeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeColorLoopTimeWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeUpTime(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeColorLoopTime(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeTotalOperationalHoursWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeColorLoopTimeWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTotalOperationalHours(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorLoopTime(success);
+        },
+        true);
 }
 
-- (void)readAttributeBootReasonsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeColorLoopStartEnhancedHueWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeBootReasons(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeColorLoopStartEnhancedHue(success, failure);
     });
 }
 
-- (void)readAttributeActiveHardwareFaultsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeColorLoopStartEnhancedHueWithMinInterval:(uint16_t)minInterval
+                                                       maxInterval:(uint16_t)maxInterval
+                                                   responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPGeneralDiagnosticsActiveHardwareFaultsListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeActiveHardwareFaults(success, failure);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeColorLoopStartEnhancedHue(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)readAttributeActiveRadioFaultsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeColorLoopStartEnhancedHueWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPGeneralDiagnosticsActiveRadioFaultsListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeActiveRadioFaults(success, failure);
-        });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorLoopStartEnhancedHue(success);
+        },
+        true);
 }
 
-- (void)readAttributeActiveNetworkFaultsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeColorLoopStoredEnhancedHueWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPGeneralDiagnosticsActiveNetworkFaultsListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeActiveNetworkFaults(success, failure);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeColorLoopStoredEnhancedHue(success, failure);
+    });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeColorLoopStoredEnhancedHueWithMinInterval:(uint16_t)minInterval
+                                                        maxInterval:(uint16_t)maxInterval
+                                                    responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+        return self.cppCluster.SubscribeAttributeColorLoopStoredEnhancedHue(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
-
-@implementation CHIPGroupKeyManagement
+- (void)reportAttributeColorLoopStoredEnhancedHueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorLoopStoredEnhancedHue(success);
+        },
+        true);
+}
 
-- (chip::Controller::ClusterBase *)getCluster
+- (void)readAttributeColorCapabilitiesWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeColorCapabilities(success, failure);
+    });
 }
 
-- (void)readAttributeGroupsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeColorCapabilitiesWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPGroupKeyManagementGroupsListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeGroups(success, failure);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeColorCapabilities(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)readAttributeGroupKeysWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeColorCapabilitiesWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPGroupKeyManagementGroupKeysListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeGroupKeys(success, failure);
-        });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorCapabilities(success);
+        },
+        true);
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeColorTempPhysicalMinWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+        return self.cppCluster.ReadAttributeColorTempPhysicalMin(success, failure);
     });
 }
 
-@end
-
-@implementation CHIPGroups
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)subscribeAttributeColorTempPhysicalMinWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeColorTempPhysicalMin(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)addGroup:(CHIPGroupsClusterAddGroupPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeColorTempPhysicalMinWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Groups::Commands::AddGroup::Type request;
-    request.groupId = payload.groupId.unsignedShortValue;
-    request.groupName = [self asCharSpan:payload.groupName];
-
-    new CHIPGroupsClusterAddGroupResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPGroupsClusterAddGroupResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorTempPhysicalMin(success);
+        },
+        true);
 }
 
-- (void)addGroupIfIdentifying:(CHIPGroupsClusterAddGroupIfIdentifyingPayload * _Nonnull)payload
-              responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeColorTempPhysicalMaxWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Groups::Commands::AddGroupIfIdentifying::Type request;
-    request.groupId = payload.groupId.unsignedShortValue;
-    request.groupName = [self asCharSpan:payload.groupName];
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeColorTempPhysicalMax(success, failure);
+    });
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+- (void)subscribeAttributeColorTempPhysicalMaxWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeColorTempPhysicalMax(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)getGroupMembership:(CHIPGroupsClusterGetGroupMembershipPayload * _Nonnull)payload
-           responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeColorTempPhysicalMaxWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Groups::Commands::GetGroupMembership::Type request;
-    {
-        using ListType = std::remove_reference_t<decltype(request.groupList)>;
-        using ListMemberType = ListMemberTypeGetter<ListType>::Type;
-        if (payload.groupList.count != 0) {
-            auto * listHolder_0 = new ListHolder<ListMemberType>(payload.groupList.count);
-            if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
-                return;
-            }
-            listFreer.add(listHolder_0);
-            for (size_t i = 0; i < payload.groupList.count; ++i) {
-                if (![payload.groupList[i] isKindOfClass:[NSNumber class]]) {
-                    // Wrong kind of value.
-                    return;
-                }
-                auto element_0 = (NSNumber *) payload.groupList[i];
-                listHolder_0->mList[i] = element_0.unsignedShortValue;
-            }
-            request.groupList = ListType(listHolder_0->mList, payload.groupList.count);
-        } else {
-            request.groupList = ListType();
-        }
-    }
-
-    new CHIPGroupsClusterGetGroupMembershipResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPGroupsClusterGetGroupMembershipResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeColorTempPhysicalMax(success);
+        },
+        true);
 }
 
-- (void)removeAllGroups:(CHIPGroupsClusterRemoveAllGroupsPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeCoupleColorTempToLevelMinMiredsWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Groups::Commands::RemoveAllGroups::Type request;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCoupleColorTempToLevelMinMireds(success, failure);
     });
 }
 
-- (void)removeGroup:(CHIPGroupsClusterRemoveGroupPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeCoupleColorTempToLevelMinMiredsWithMinInterval:(uint16_t)minInterval
+                                                             maxInterval:(uint16_t)maxInterval
+                                                         responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Groups::Commands::RemoveGroup::Type request;
-    request.groupId = payload.groupId.unsignedShortValue;
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCoupleColorTempToLevelMinMireds(success, failure, minInterval, maxInterval);
+    });
+}
 
-    new CHIPGroupsClusterRemoveGroupResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPGroupsClusterRemoveGroupResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)reportAttributeCoupleColorTempToLevelMinMiredsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCoupleColorTempToLevelMinMireds(success);
+        },
+        true);
 }
 
-- (void)viewGroup:(CHIPGroupsClusterViewGroupPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeStartUpColorTemperatureMiredsWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Groups::Commands::ViewGroup::Type request;
-    request.groupId = payload.groupId.unsignedShortValue;
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeStartUpColorTemperatureMireds(success, failure);
+    });
+}
 
-    new CHIPGroupsClusterViewGroupResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPGroupsClusterViewGroupResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)writeAttributeStartUpColorTemperatureMiredsWithValue:(NSNumber * _Nonnull)value
+                                             responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = ColorControl::Attributes::StartUpColorTemperatureMireds::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedShortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
 }
 
-- (void)readAttributeNameSupportWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeStartUpColorTemperatureMiredsWithMinInterval:(uint16_t)minInterval
+                                                           maxInterval:(uint16_t)maxInterval
+                                                       responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNameSupport(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeStartUpColorTemperatureMireds(success, failure, minInterval, maxInterval);
     });
 }
 
+- (void)reportAttributeStartUpColorTemperatureMiredsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeStartUpColorTemperatureMireds(success);
+        },
+        true);
+}
+
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -3167,558 +3801,642 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
 @end
 
-@implementation CHIPIdentify
+@implementation CHIPContentLauncher
 
 - (chip::Controller::ClusterBase *)getCluster
 {
     return &_cppCluster;
 }
 
-- (void)identify:(CHIPIdentifyClusterIdentifyPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)launchContent:(CHIPContentLauncherClusterLaunchContentPayload * _Nonnull)payload
+      responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    Identify::Commands::Identify::Type request;
-    request.identifyTime = payload.identifyTime.unsignedShortValue;
+    ContentLauncher::Commands::LaunchContent::Type request;
+    request.autoPlay = payload.autoPlay.boolValue;
+    request.data = [self asCharSpan:payload.data];
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPContentLauncherClusterLaunchContentResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPContentLauncherClusterLaunchContentResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)identifyQuery:(CHIPIdentifyClusterIdentifyQueryPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)launchURL:(CHIPContentLauncherClusterLaunchURLPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    Identify::Commands::IdentifyQuery::Type request;
+    ContentLauncher::Commands::LaunchURL::Type request;
+    request.contentURL = [self asCharSpan:payload.contentURL];
+    request.displayString = [self asCharSpan:payload.displayString];
 
-    new CHIPIdentifyClusterIdentifyQueryResponseCallbackBridge(
+    new CHIPContentLauncherClusterLaunchURLResponseCallbackBridge(
         self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPIdentifyClusterIdentifyQueryResponseCallbackType>::FromCancelable(success);
+            auto successFn = Callback<CHIPContentLauncherClusterLaunchURLResponseCallbackType>::FromCancelable(success);
             auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
             return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
         });
 }
 
-- (void)triggerEffect:(CHIPIdentifyClusterTriggerEffectPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeAcceptsHeaderListWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Identify::Commands::TriggerEffect::Type request;
-    request.effectIdentifier
-        = static_cast<std::remove_reference_t<decltype(request.effectIdentifier)>>(payload.effectIdentifier.unsignedCharValue);
-    request.effectVariant
-        = static_cast<std::remove_reference_t<decltype(request.effectVariant)>>(payload.effectVariant.unsignedCharValue);
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPContentLauncherAcceptsHeaderListListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeAcceptsHeaderList(success, failure);
+        });
 }
 
-- (void)readAttributeIdentifyTimeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeSupportedStreamingTypesWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeIdentifyTime(success, failure);
-    });
+    new CHIPContentLauncherSupportedStreamingTypesListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeSupportedStreamingTypes(success, failure);
+        });
 }
 
-- (void)writeAttributeIdentifyTimeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = Identify::Attributes::IdentifyTime::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedShortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
     });
 }
 
-- (void)readAttributeIdentifyTypeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeIdentifyType(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
 }
 
 @end
 
-@implementation CHIPIlluminanceMeasurement
+@implementation CHIPDescriptor
 
 - (chip::Controller::ClusterBase *)getCluster
 {
     return &_cppCluster;
 }
 
-- (void)readAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeDeviceListWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMeasuredValue(success, failure);
-    });
+    new CHIPDescriptorDeviceListListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeDeviceList(success, failure);
+        });
 }
 
-- (void)subscribeAttributeMeasuredValueWithMinInterval:(uint16_t)minInterval
-                                           maxInterval:(uint16_t)maxInterval
-                                       responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeServerListWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeMeasuredValue(success, failure, minInterval, maxInterval);
-    });
+    new CHIPDescriptorServerListListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeServerList(success, failure);
+        });
 }
 
-- (void)reportAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeClientListWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(
-        self.callbackQueue, responseHandler,
-        ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeMeasuredValue(success);
-        },
-        true);
+    new CHIPDescriptorClientListListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeClientList(success, failure);
+        });
 }
 
-- (void)readAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePartsListWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMinMeasuredValue(success, failure);
-    });
+    new CHIPDescriptorPartsListListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributePartsList(success, failure);
+        });
 }
 
-- (void)readAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMaxMeasuredValue(success, failure);
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
     });
 }
 
-- (void)readAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTolerance(success, failure);
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeLightSensorTypeWithResponseHandler:(ResponseHandler)responseHandler
-{
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeLightSensorType(success, failure);
-    });
-}
-
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
 }
 
 @end
 
-@implementation CHIPKeypadInput
+@implementation CHIPDiagnosticLogs
 
 - (chip::Controller::ClusterBase *)getCluster
 {
     return &_cppCluster;
 }
 
-- (void)sendKey:(CHIPKeypadInputClusterSendKeyPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)retrieveLogsRequest:(CHIPDiagnosticLogsClusterRetrieveLogsRequestPayload * _Nonnull)payload
+            responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    KeypadInput::Commands::SendKey::Type request;
-    request.keyCode = static_cast<std::remove_reference_t<decltype(request.keyCode)>>(payload.keyCode.unsignedCharValue);
+    DiagnosticLogs::Commands::RetrieveLogsRequest::Type request;
+    request.intent = static_cast<std::remove_reference_t<decltype(request.intent)>>(payload.intent.unsignedCharValue);
+    request.requestedProtocol
+        = static_cast<std::remove_reference_t<decltype(request.requestedProtocol)>>(payload.requestedProtocol.unsignedCharValue);
+    request.transferFileDesignator = [self asByteSpan:payload.transferFileDesignator];
 
-    new CHIPKeypadInputClusterSendKeyResponseCallbackBridge(
+    new CHIPDiagnosticLogsClusterRetrieveLogsResponseCallbackBridge(
         self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPKeypadInputClusterSendKeyResponseCallbackType>::FromCancelable(success);
+            auto successFn = Callback<CHIPDiagnosticLogsClusterRetrieveLogsResponseCallbackType>::FromCancelable(success);
             auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
             return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
         });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
-{
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
-    });
-}
-
 @end
 
-@implementation CHIPLevelControl
+@implementation CHIPDoorLock
 
 - (chip::Controller::ClusterBase *)getCluster
 {
     return &_cppCluster;
 }
 
-- (void)move:(CHIPLevelControlClusterMovePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)clearAllPins:(CHIPDoorLockClusterClearAllPinsPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    LevelControl::Commands::Move::Type request;
-    request.moveMode = static_cast<std::remove_reference_t<decltype(request.moveMode)>>(payload.moveMode.unsignedCharValue);
-    request.rate = payload.rate.unsignedCharValue;
-    request.optionMask = payload.optionMask.unsignedCharValue;
-    request.optionOverride = payload.optionOverride.unsignedCharValue;
+    DoorLock::Commands::ClearAllPins::Type request;
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPDoorLockClusterClearAllPinsResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterClearAllPinsResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)moveToLevel:(CHIPLevelControlClusterMoveToLevelPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)clearAllRfids:(CHIPDoorLockClusterClearAllRfidsPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    LevelControl::Commands::MoveToLevel::Type request;
-    request.level = payload.level.unsignedCharValue;
-    request.transitionTime = payload.transitionTime.unsignedShortValue;
-    request.optionMask = payload.optionMask.unsignedCharValue;
-    request.optionOverride = payload.optionOverride.unsignedCharValue;
+    DoorLock::Commands::ClearAllRfids::Type request;
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPDoorLockClusterClearAllRfidsResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterClearAllRfidsResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)moveToLevelWithOnOff:(CHIPLevelControlClusterMoveToLevelWithOnOffPayload * _Nonnull)payload
+- (void)clearHolidaySchedule:(CHIPDoorLockClusterClearHolidaySchedulePayload * _Nonnull)payload
              responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    LevelControl::Commands::MoveToLevelWithOnOff::Type request;
-    request.level = payload.level.unsignedCharValue;
-    request.transitionTime = payload.transitionTime.unsignedShortValue;
+    DoorLock::Commands::ClearHolidaySchedule::Type request;
+    request.scheduleId = payload.scheduleId.unsignedCharValue;
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPDoorLockClusterClearHolidayScheduleResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterClearHolidayScheduleResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)moveWithOnOff:(CHIPLevelControlClusterMoveWithOnOffPayload * _Nonnull)payload
-      responseHandler:(ResponseHandler)responseHandler
+- (void)clearPin:(CHIPDoorLockClusterClearPinPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    LevelControl::Commands::MoveWithOnOff::Type request;
-    request.moveMode = static_cast<std::remove_reference_t<decltype(request.moveMode)>>(payload.moveMode.unsignedCharValue);
-    request.rate = payload.rate.unsignedCharValue;
+    DoorLock::Commands::ClearPin::Type request;
+    request.userId = payload.userId.unsignedShortValue;
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPDoorLockClusterClearPinResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterClearPinResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)step:(CHIPLevelControlClusterStepPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)clearRfid:(CHIPDoorLockClusterClearRfidPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    LevelControl::Commands::Step::Type request;
-    request.stepMode = static_cast<std::remove_reference_t<decltype(request.stepMode)>>(payload.stepMode.unsignedCharValue);
-    request.stepSize = payload.stepSize.unsignedCharValue;
-    request.transitionTime = payload.transitionTime.unsignedShortValue;
-    request.optionMask = payload.optionMask.unsignedCharValue;
-    request.optionOverride = payload.optionOverride.unsignedCharValue;
+    DoorLock::Commands::ClearRfid::Type request;
+    request.userId = payload.userId.unsignedShortValue;
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPDoorLockClusterClearRfidResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterClearRfidResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)stepWithOnOff:(CHIPLevelControlClusterStepWithOnOffPayload * _Nonnull)payload
-      responseHandler:(ResponseHandler)responseHandler
+- (void)clearWeekdaySchedule:(CHIPDoorLockClusterClearWeekdaySchedulePayload * _Nonnull)payload
+             responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    LevelControl::Commands::StepWithOnOff::Type request;
-    request.stepMode = static_cast<std::remove_reference_t<decltype(request.stepMode)>>(payload.stepMode.unsignedCharValue);
-    request.stepSize = payload.stepSize.unsignedCharValue;
-    request.transitionTime = payload.transitionTime.unsignedShortValue;
+    DoorLock::Commands::ClearWeekdaySchedule::Type request;
+    request.scheduleId = payload.scheduleId.unsignedCharValue;
+    request.userId = payload.userId.unsignedShortValue;
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPDoorLockClusterClearWeekdayScheduleResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterClearWeekdayScheduleResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)stop:(CHIPLevelControlClusterStopPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)clearYeardaySchedule:(CHIPDoorLockClusterClearYeardaySchedulePayload * _Nonnull)payload
+             responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    LevelControl::Commands::Stop::Type request;
-    request.optionMask = payload.optionMask.unsignedCharValue;
-    request.optionOverride = payload.optionOverride.unsignedCharValue;
+    DoorLock::Commands::ClearYeardaySchedule::Type request;
+    request.scheduleId = payload.scheduleId.unsignedCharValue;
+    request.userId = payload.userId.unsignedShortValue;
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPDoorLockClusterClearYeardayScheduleResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterClearYeardayScheduleResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)stopWithOnOff:(CHIPLevelControlClusterStopWithOnOffPayload * _Nonnull)payload
-      responseHandler:(ResponseHandler)responseHandler
+- (void)getHolidaySchedule:(CHIPDoorLockClusterGetHolidaySchedulePayload * _Nonnull)payload
+           responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    LevelControl::Commands::StopWithOnOff::Type request;
+    DoorLock::Commands::GetHolidaySchedule::Type request;
+    request.scheduleId = payload.scheduleId.unsignedCharValue;
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPDoorLockClusterGetHolidayScheduleResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterGetHolidayScheduleResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)readAttributeCurrentLevelWithResponseHandler:(ResponseHandler)responseHandler
+- (void)getLogRecord:(CHIPDoorLockClusterGetLogRecordPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCurrentLevel(success, failure);
-    });
-}
+    ListFreer listFreer;
+    DoorLock::Commands::GetLogRecord::Type request;
+    request.logIndex = payload.logIndex.unsignedShortValue;
 
-- (void)subscribeAttributeCurrentLevelWithMinInterval:(uint16_t)minInterval
-                                          maxInterval:(uint16_t)maxInterval
-                                      responseHandler:(ResponseHandler)responseHandler
-{
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeCurrentLevel(success, failure, minInterval, maxInterval);
-    });
+    new CHIPDoorLockClusterGetLogRecordResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterGetLogRecordResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)reportAttributeCurrentLevelWithResponseHandler:(ResponseHandler)responseHandler
+- (void)getPin:(CHIPDoorLockClusterGetPinPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(
-        self.callbackQueue, responseHandler,
-        ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeCurrentLevel(success);
-        },
-        true);
+    ListFreer listFreer;
+    DoorLock::Commands::GetPin::Type request;
+    request.userId = payload.userId.unsignedShortValue;
+
+    new CHIPDoorLockClusterGetPinResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterGetPinResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)readAttributeRemainingTimeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)getRfid:(CHIPDoorLockClusterGetRfidPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRemainingTime(success, failure);
-    });
+    ListFreer listFreer;
+    DoorLock::Commands::GetRfid::Type request;
+    request.userId = payload.userId.unsignedShortValue;
+
+    new CHIPDoorLockClusterGetRfidResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterGetRfidResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)readAttributeMinLevelWithResponseHandler:(ResponseHandler)responseHandler
+- (void)getUserType:(CHIPDoorLockClusterGetUserTypePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMinLevel(success, failure);
-    });
-}
+    ListFreer listFreer;
+    DoorLock::Commands::GetUserType::Type request;
+    request.userId = payload.userId.unsignedShortValue;
 
-- (void)readAttributeMaxLevelWithResponseHandler:(ResponseHandler)responseHandler
-{
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMaxLevel(success, failure);
-    });
+    new CHIPDoorLockClusterGetUserTypeResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterGetUserTypeResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)readAttributeCurrentFrequencyWithResponseHandler:(ResponseHandler)responseHandler
+- (void)getWeekdaySchedule:(CHIPDoorLockClusterGetWeekdaySchedulePayload * _Nonnull)payload
+           responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCurrentFrequency(success, failure);
-    });
-}
+    ListFreer listFreer;
+    DoorLock::Commands::GetWeekdaySchedule::Type request;
+    request.scheduleId = payload.scheduleId.unsignedCharValue;
+    request.userId = payload.userId.unsignedShortValue;
 
-- (void)readAttributeMinFrequencyWithResponseHandler:(ResponseHandler)responseHandler
-{
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMinFrequency(success, failure);
-    });
+    new CHIPDoorLockClusterGetWeekdayScheduleResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterGetWeekdayScheduleResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)readAttributeMaxFrequencyWithResponseHandler:(ResponseHandler)responseHandler
+- (void)getYeardaySchedule:(CHIPDoorLockClusterGetYeardaySchedulePayload * _Nonnull)payload
+           responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMaxFrequency(success, failure);
-    });
+    ListFreer listFreer;
+    DoorLock::Commands::GetYeardaySchedule::Type request;
+    request.scheduleId = payload.scheduleId.unsignedCharValue;
+    request.userId = payload.userId.unsignedShortValue;
+
+    new CHIPDoorLockClusterGetYeardayScheduleResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterGetYeardayScheduleResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)readAttributeOptionsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)lockDoor:(CHIPDoorLockClusterLockDoorPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOptions(success, failure);
-    });
+    ListFreer listFreer;
+    DoorLock::Commands::LockDoor::Type request;
+    request.pin = [self asByteSpan:payload.pin];
+
+    new CHIPDoorLockClusterLockDoorResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterLockDoorResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)writeAttributeOptionsWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)setHolidaySchedule:(CHIPDoorLockClusterSetHolidaySchedulePayload * _Nonnull)payload
+           responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = LevelControl::Attributes::Options::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedCharValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    ListFreer listFreer;
+    DoorLock::Commands::SetHolidaySchedule::Type request;
+    request.scheduleId = payload.scheduleId.unsignedCharValue;
+    request.localStartTime = payload.localStartTime.unsignedIntValue;
+    request.localEndTime = payload.localEndTime.unsignedIntValue;
+    request.operatingModeDuringHoliday = payload.operatingModeDuringHoliday.unsignedCharValue;
+
+    new CHIPDoorLockClusterSetHolidayScheduleResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterSetHolidayScheduleResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)readAttributeOnOffTransitionTimeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)setPin:(CHIPDoorLockClusterSetPinPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOnOffTransitionTime(success, failure);
-    });
+    ListFreer listFreer;
+    DoorLock::Commands::SetPin::Type request;
+    request.userId = payload.userId.unsignedShortValue;
+    request.userStatus = static_cast<std::remove_reference_t<decltype(request.userStatus)>>(payload.userStatus.unsignedCharValue);
+    request.userType = static_cast<std::remove_reference_t<decltype(request.userType)>>(payload.userType.unsignedCharValue);
+    request.pin = [self asByteSpan:payload.pin];
+
+    new CHIPDoorLockClusterSetPinResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterSetPinResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)writeAttributeOnOffTransitionTimeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)setRfid:(CHIPDoorLockClusterSetRfidPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = LevelControl::Attributes::OnOffTransitionTime::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedShortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    ListFreer listFreer;
+    DoorLock::Commands::SetRfid::Type request;
+    request.userId = payload.userId.unsignedShortValue;
+    request.userStatus = static_cast<std::remove_reference_t<decltype(request.userStatus)>>(payload.userStatus.unsignedCharValue);
+    request.userType = static_cast<std::remove_reference_t<decltype(request.userType)>>(payload.userType.unsignedCharValue);
+    request.id = [self asByteSpan:payload.id];
+
+    new CHIPDoorLockClusterSetRfidResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterSetRfidResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)readAttributeOnLevelWithResponseHandler:(ResponseHandler)responseHandler
+- (void)setUserType:(CHIPDoorLockClusterSetUserTypePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOnLevel(success, failure);
-    });
+    ListFreer listFreer;
+    DoorLock::Commands::SetUserType::Type request;
+    request.userId = payload.userId.unsignedShortValue;
+    request.userType = static_cast<std::remove_reference_t<decltype(request.userType)>>(payload.userType.unsignedCharValue);
+
+    new CHIPDoorLockClusterSetUserTypeResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterSetUserTypeResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)writeAttributeOnLevelWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)setWeekdaySchedule:(CHIPDoorLockClusterSetWeekdaySchedulePayload * _Nonnull)payload
+           responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = LevelControl::Attributes::OnLevel::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedCharValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    ListFreer listFreer;
+    DoorLock::Commands::SetWeekdaySchedule::Type request;
+    request.scheduleId = payload.scheduleId.unsignedCharValue;
+    request.userId = payload.userId.unsignedShortValue;
+    request.daysMask = static_cast<std::remove_reference_t<decltype(request.daysMask)>>(payload.daysMask.unsignedCharValue);
+    request.startHour = payload.startHour.unsignedCharValue;
+    request.startMinute = payload.startMinute.unsignedCharValue;
+    request.endHour = payload.endHour.unsignedCharValue;
+    request.endMinute = payload.endMinute.unsignedCharValue;
+
+    new CHIPDoorLockClusterSetWeekdayScheduleResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterSetWeekdayScheduleResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)readAttributeOnTransitionTimeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)setYeardaySchedule:(CHIPDoorLockClusterSetYeardaySchedulePayload * _Nonnull)payload
+           responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOnTransitionTime(success, failure);
-    });
+    ListFreer listFreer;
+    DoorLock::Commands::SetYeardaySchedule::Type request;
+    request.scheduleId = payload.scheduleId.unsignedCharValue;
+    request.userId = payload.userId.unsignedShortValue;
+    request.localStartTime = payload.localStartTime.unsignedIntValue;
+    request.localEndTime = payload.localEndTime.unsignedIntValue;
+
+    new CHIPDoorLockClusterSetYeardayScheduleResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterSetYeardayScheduleResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)writeAttributeOnTransitionTimeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)unlockDoor:(CHIPDoorLockClusterUnlockDoorPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = LevelControl::Attributes::OnTransitionTime::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedShortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    ListFreer listFreer;
+    DoorLock::Commands::UnlockDoor::Type request;
+    request.pin = [self asByteSpan:payload.pin];
+
+    new CHIPDoorLockClusterUnlockDoorResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterUnlockDoorResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)readAttributeOffTransitionTimeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)unlockWithTimeout:(CHIPDoorLockClusterUnlockWithTimeoutPayload * _Nonnull)payload
+          responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOffTransitionTime(success, failure);
-    });
+    ListFreer listFreer;
+    DoorLock::Commands::UnlockWithTimeout::Type request;
+    request.timeoutInSeconds = payload.timeoutInSeconds.unsignedShortValue;
+    request.pin = [self asByteSpan:payload.pin];
+
+    new CHIPDoorLockClusterUnlockWithTimeoutResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPDoorLockClusterUnlockWithTimeoutResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
 }
 
-- (void)writeAttributeOffTransitionTimeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeLockStateWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = LevelControl::Attributes::OffTransitionTime::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedShortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeLockState(success, failure);
     });
 }
 
-- (void)readAttributeDefaultMoveRateWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeLockStateWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeDefaultMoveRate(success, failure);
+        return self.cppCluster.SubscribeAttributeLockState(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeDefaultMoveRateWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeLockStateWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = LevelControl::Attributes::DefaultMoveRate::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedCharValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeLockState(success);
+        },
+        true);
 }
 
-- (void)readAttributeStartUpCurrentLevelWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeLockTypeWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeStartUpCurrentLevel(success, failure);
+        return self.cppCluster.ReadAttributeLockType(success, failure);
     });
 }
 
-- (void)writeAttributeStartUpCurrentLevelWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeLockTypeWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = LevelControl::Attributes::StartUpCurrentLevel::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedCharValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeLockType(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeLockTypeWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
-    });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeLockType(success);
+        },
+        true);
 }
 
-@end
-
-@implementation CHIPLowPower
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)readAttributeActuatorEnabledWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeActuatorEnabled(success, failure);
+    });
 }
 
-- (void)sleep:(CHIPLowPowerClusterSleepPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeActuatorEnabledWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    LowPower::Commands::Sleep::Type request;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeActuatorEnabled(success, failure, minInterval, maxInterval);
     });
 }
 
+- (void)reportAttributeActuatorEnabledWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeActuatorEnabled(success);
+        },
+        true);
+}
+
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -3726,306 +4444,320 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
 @end
 
-@implementation CHIPMediaInput
+@implementation CHIPElectricalMeasurement
 
 - (chip::Controller::ClusterBase *)getCluster
 {
     return &_cppCluster;
 }
 
-- (void)hideInputStatus:(CHIPMediaInputClusterHideInputStatusPayload * _Nonnull)payload
-        responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeMeasurementTypeWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    MediaInput::Commands::HideInputStatus::Type request;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMeasurementType(success, failure);
     });
 }
 
-- (void)renameInput:(CHIPMediaInputClusterRenameInputPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeMeasurementTypeWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    MediaInput::Commands::RenameInput::Type request;
-    request.index = payload.index.unsignedCharValue;
-    request.name = [self asCharSpan:payload.name];
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMeasurementType(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)selectInput:(CHIPMediaInputClusterSelectInputPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeMeasurementTypeWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    MediaInput::Commands::SelectInput::Type request;
-    request.index = payload.index.unsignedCharValue;
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMeasurementType(success);
+        },
+        true);
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+- (void)readAttributeTotalActivePowerWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTotalActivePower(success, failure);
     });
 }
 
-- (void)showInputStatus:(CHIPMediaInputClusterShowInputStatusPayload * _Nonnull)payload
-        responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTotalActivePowerWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    MediaInput::Commands::ShowInputStatus::Type request;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTotalActivePower(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeMediaInputListWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeTotalActivePowerWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPMediaInputMediaInputListListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeMediaInputList(success, failure);
-        });
+    new CHIPInt32sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTotalActivePower(success);
+        },
+        true);
 }
 
-- (void)readAttributeCurrentMediaInputWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRmsVoltageWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCurrentMediaInput(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRmsVoltage(success, failure);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRmsVoltageWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+        return self.cppCluster.SubscribeAttributeRmsVoltage(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
-
-@implementation CHIPMediaPlayback
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributeRmsVoltageWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRmsVoltage(success);
+        },
+        true);
 }
 
-- (void)mediaFastForward:(CHIPMediaPlaybackClusterMediaFastForwardPayload * _Nonnull)payload
-         responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRmsVoltageMinWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    MediaPlayback::Commands::MediaFastForward::Type request;
-
-    new CHIPMediaPlaybackClusterMediaFastForwardResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPMediaPlaybackClusterMediaFastForwardResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRmsVoltageMin(success, failure);
+    });
 }
 
-- (void)mediaNext:(CHIPMediaPlaybackClusterMediaNextPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRmsVoltageMinWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    MediaPlayback::Commands::MediaNext::Type request;
-
-    new CHIPMediaPlaybackClusterMediaNextResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPMediaPlaybackClusterMediaNextResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRmsVoltageMin(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)mediaPause:(CHIPMediaPlaybackClusterMediaPausePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRmsVoltageMinWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    MediaPlayback::Commands::MediaPause::Type request;
-
-    new CHIPMediaPlaybackClusterMediaPauseResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPMediaPlaybackClusterMediaPauseResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRmsVoltageMin(success);
+        },
+        true);
 }
 
-- (void)mediaPlay:(CHIPMediaPlaybackClusterMediaPlayPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRmsVoltageMaxWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    MediaPlayback::Commands::MediaPlay::Type request;
-
-    new CHIPMediaPlaybackClusterMediaPlayResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPMediaPlaybackClusterMediaPlayResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRmsVoltageMax(success, failure);
+    });
 }
 
-- (void)mediaPrevious:(CHIPMediaPlaybackClusterMediaPreviousPayload * _Nonnull)payload
-      responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRmsVoltageMaxWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    MediaPlayback::Commands::MediaPrevious::Type request;
-
-    new CHIPMediaPlaybackClusterMediaPreviousResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPMediaPlaybackClusterMediaPreviousResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRmsVoltageMax(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)mediaRewind:(CHIPMediaPlaybackClusterMediaRewindPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRmsVoltageMaxWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    MediaPlayback::Commands::MediaRewind::Type request;
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRmsVoltageMax(success);
+        },
+        true);
+}
 
-    new CHIPMediaPlaybackClusterMediaRewindResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPMediaPlaybackClusterMediaRewindResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)readAttributeRmsCurrentWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRmsCurrent(success, failure);
+    });
 }
 
-- (void)mediaSeek:(CHIPMediaPlaybackClusterMediaSeekPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRmsCurrentWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    MediaPlayback::Commands::MediaSeek::Type request;
-    request.position = payload.position.unsignedLongLongValue;
-
-    new CHIPMediaPlaybackClusterMediaSeekResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPMediaPlaybackClusterMediaSeekResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRmsCurrent(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)mediaSkipBackward:(CHIPMediaPlaybackClusterMediaSkipBackwardPayload * _Nonnull)payload
-          responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRmsCurrentWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    MediaPlayback::Commands::MediaSkipBackward::Type request;
-    request.deltaPositionMilliseconds = payload.deltaPositionMilliseconds.unsignedLongLongValue;
-
-    new CHIPMediaPlaybackClusterMediaSkipBackwardResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPMediaPlaybackClusterMediaSkipBackwardResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRmsCurrent(success);
+        },
+        true);
 }
 
-- (void)mediaSkipForward:(CHIPMediaPlaybackClusterMediaSkipForwardPayload * _Nonnull)payload
-         responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRmsCurrentMinWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    MediaPlayback::Commands::MediaSkipForward::Type request;
-    request.deltaPositionMilliseconds = payload.deltaPositionMilliseconds.unsignedLongLongValue;
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRmsCurrentMin(success, failure);
+    });
+}
 
-    new CHIPMediaPlaybackClusterMediaSkipForwardResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPMediaPlaybackClusterMediaSkipForwardResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)subscribeAttributeRmsCurrentMinWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRmsCurrentMin(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)mediaStartOver:(CHIPMediaPlaybackClusterMediaStartOverPayload * _Nonnull)payload
-       responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRmsCurrentMinWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    MediaPlayback::Commands::MediaStartOver::Type request;
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRmsCurrentMin(success);
+        },
+        true);
+}
 
-    new CHIPMediaPlaybackClusterMediaStartOverResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPMediaPlaybackClusterMediaStartOverResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)readAttributeRmsCurrentMaxWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRmsCurrentMax(success, failure);
+    });
 }
 
-- (void)mediaStop:(CHIPMediaPlaybackClusterMediaStopPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRmsCurrentMaxWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    MediaPlayback::Commands::MediaStop::Type request;
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRmsCurrentMax(success, failure, minInterval, maxInterval);
+    });
+}
 
-    new CHIPMediaPlaybackClusterMediaStopResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPMediaPlaybackClusterMediaStopResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)reportAttributeRmsCurrentMaxWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRmsCurrentMax(success);
+        },
+        true);
 }
 
-- (void)readAttributePlaybackStateWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeActivePowerWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePlaybackState(success, failure);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeActivePower(success, failure);
     });
 }
 
-- (void)readAttributeStartTimeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeActivePowerWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeStartTime(success, failure);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeActivePower(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeDurationWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeActivePowerWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeDuration(success, failure);
-    });
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeActivePower(success);
+        },
+        true);
 }
 
-- (void)readAttributePositionUpdatedAtWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeActivePowerMinWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePositionUpdatedAt(success, failure);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeActivePowerMin(success, failure);
     });
 }
 
-- (void)readAttributePositionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeActivePowerMinWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePosition(success, failure);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeActivePowerMin(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributePlaybackSpeedWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeActivePowerMinWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePlaybackSpeed(success, failure);
-    });
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeActivePowerMin(success);
+        },
+        true);
 }
 
-- (void)readAttributeSeekRangeEndWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeActivePowerMaxWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeSeekRangeEnd(success, failure);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeActivePowerMax(success, failure);
     });
 }
 
-- (void)readAttributeSeekRangeStartWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeActivePowerMaxWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeSeekRangeStart(success, failure);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeActivePowerMax(success, failure, minInterval, maxInterval);
     });
 }
 
+- (void)reportAttributeActivePowerMaxWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeActivePowerMax(success);
+        },
+        true);
+}
+
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -4033,20 +4765,39 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
 @end
 
-@implementation CHIPModeSelect
+@implementation CHIPEthernetNetworkDiagnostics
 
 - (chip::Controller::ClusterBase *)getCluster
 {
     return &_cppCluster;
 }
 
-- (void)changeToMode:(CHIPModeSelectClusterChangeToModePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)resetCounts:(CHIPEthernetNetworkDiagnosticsClusterResetCountsPayload * _Nonnull)payload
+    responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    ModeSelect::Commands::ChangeToMode::Type request;
-    request.newMode = payload.newMode.unsignedCharValue;
+    EthernetNetworkDiagnostics::Commands::ResetCounts::Type request;
 
     new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
@@ -4055,237 +4806,240 @@ new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
-- (void)readAttributeCurrentModeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePHYRateWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCurrentMode(success, failure);
+        return self.cppCluster.ReadAttributePHYRate(success, failure);
     });
 }
 
-- (void)subscribeAttributeCurrentModeWithMinInterval:(uint16_t)minInterval
-                                         maxInterval:(uint16_t)maxInterval
-                                     responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePHYRateWithMinInterval:(uint16_t)minInterval
+                                     maxInterval:(uint16_t)maxInterval
+                                 responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeCurrentMode(success, failure, minInterval, maxInterval);
+        return self.cppCluster.SubscribeAttributePHYRate(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)reportAttributeCurrentModeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePHYRateWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(
         self.callbackQueue, responseHandler,
         ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeCurrentMode(success);
+            return self.cppCluster.ReportAttributePHYRate(success);
         },
         true);
 }
 
-- (void)readAttributeSupportedModesWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeFullDuplexWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPModeSelectSupportedModesListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeSupportedModes(success, failure);
-        });
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeFullDuplex(success, failure);
+    });
 }
 
-- (void)readAttributeOnModeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeFullDuplexWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOnMode(success, failure);
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeFullDuplex(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeOnModeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeFullDuplexWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = ModeSelect::Attributes::OnMode::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedCharValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPBooleanAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeFullDuplex(success);
+        },
+        true);
 }
 
-- (void)readAttributeStartUpModeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePacketRxCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeStartUpMode(success, failure);
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePacketRxCount(success, failure);
     });
 }
 
-- (void)readAttributeDescriptionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePacketRxCountWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeDescription(success, failure);
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePacketRxCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePacketRxCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
-    });
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePacketRxCount(success);
+        },
+        true);
 }
 
-@end
-
-@implementation CHIPNetworkCommissioning
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)readAttributePacketTxCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePacketTxCount(success, failure);
+    });
 }
 
-- (void)addThreadNetwork:(CHIPNetworkCommissioningClusterAddThreadNetworkPayload * _Nonnull)payload
-         responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePacketTxCountWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    NetworkCommissioning::Commands::AddThreadNetwork::Type request;
-    request.operationalDataset = [self asByteSpan:payload.operationalDataset];
-    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
-    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
-
-    new CHIPNetworkCommissioningClusterAddThreadNetworkResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPNetworkCommissioningClusterAddThreadNetworkResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePacketTxCount(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)addWiFiNetwork:(CHIPNetworkCommissioningClusterAddWiFiNetworkPayload * _Nonnull)payload
-       responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePacketTxCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    NetworkCommissioning::Commands::AddWiFiNetwork::Type request;
-    request.ssid = [self asByteSpan:payload.ssid];
-    request.credentials = [self asByteSpan:payload.credentials];
-    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
-    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePacketTxCount(success);
+        },
+        true);
+}
 
-    new CHIPNetworkCommissioningClusterAddWiFiNetworkResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPNetworkCommissioningClusterAddWiFiNetworkResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)readAttributeTxErrCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTxErrCount(success, failure);
+    });
 }
 
-- (void)disableNetwork:(CHIPNetworkCommissioningClusterDisableNetworkPayload * _Nonnull)payload
-       responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTxErrCountWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    NetworkCommissioning::Commands::DisableNetwork::Type request;
-    request.networkID = [self asByteSpan:payload.networkID];
-    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
-    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTxErrCount(success, failure, minInterval, maxInterval);
+    });
+}
 
-    new CHIPNetworkCommissioningClusterDisableNetworkResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPNetworkCommissioningClusterDisableNetworkResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)reportAttributeTxErrCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTxErrCount(success);
+        },
+        true);
 }
 
-- (void)enableNetwork:(CHIPNetworkCommissioningClusterEnableNetworkPayload * _Nonnull)payload
-      responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeCollisionCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    NetworkCommissioning::Commands::EnableNetwork::Type request;
-    request.networkID = [self asByteSpan:payload.networkID];
-    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
-    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCollisionCount(success, failure);
+    });
+}
 
-    new CHIPNetworkCommissioningClusterEnableNetworkResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPNetworkCommissioningClusterEnableNetworkResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)subscribeAttributeCollisionCountWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCollisionCount(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)removeNetwork:(CHIPNetworkCommissioningClusterRemoveNetworkPayload * _Nonnull)payload
-      responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeCollisionCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    NetworkCommissioning::Commands::RemoveNetwork::Type request;
-    request.networkID = [self asByteSpan:payload.networkID];
-    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
-    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCollisionCount(success);
+        },
+        true);
+}
 
-    new CHIPNetworkCommissioningClusterRemoveNetworkResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPNetworkCommissioningClusterRemoveNetworkResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)readAttributeOverrunCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOverrunCount(success, failure);
+    });
 }
 
-- (void)scanNetworks:(CHIPNetworkCommissioningClusterScanNetworksPayload * _Nonnull)payload
-     responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeOverrunCountWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    NetworkCommissioning::Commands::ScanNetworks::Type request;
-    request.ssid = [self asByteSpan:payload.ssid];
-    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
-    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOverrunCount(success, failure, minInterval, maxInterval);
+    });
+}
 
-    new CHIPNetworkCommissioningClusterScanNetworksResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPNetworkCommissioningClusterScanNetworksResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)reportAttributeOverrunCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOverrunCount(success);
+        },
+        true);
 }
 
-- (void)updateThreadNetwork:(CHIPNetworkCommissioningClusterUpdateThreadNetworkPayload * _Nonnull)payload
-            responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeCarrierDetectWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    NetworkCommissioning::Commands::UpdateThreadNetwork::Type request;
-    request.operationalDataset = [self asByteSpan:payload.operationalDataset];
-    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
-    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCarrierDetect(success, failure);
+    });
+}
 
-    new CHIPNetworkCommissioningClusterUpdateThreadNetworkResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn
-                = Callback<CHIPNetworkCommissioningClusterUpdateThreadNetworkResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)subscribeAttributeCarrierDetectWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCarrierDetect(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)updateWiFiNetwork:(CHIPNetworkCommissioningClusterUpdateWiFiNetworkPayload * _Nonnull)payload
-          responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeCarrierDetectWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    NetworkCommissioning::Commands::UpdateWiFiNetwork::Type request;
-    request.ssid = [self asByteSpan:payload.ssid];
-    request.credentials = [self asByteSpan:payload.credentials];
-    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
-    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
+    new CHIPBooleanAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCarrierDetect(success);
+        },
+        true);
+}
 
-    new CHIPNetworkCommissioningClusterUpdateWiFiNetworkResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn
-                = Callback<CHIPNetworkCommissioningClusterUpdateWiFiNetworkResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)readAttributeTimeSinceResetWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTimeSinceReset(success, failure);
+    });
 }
 
-- (void)readAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTimeSinceResetWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeFeatureMap(success, failure);
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTimeSinceReset(success, failure, minInterval, maxInterval);
     });
 }
 
+- (void)reportAttributeTimeSinceResetWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTimeSinceReset(success);
+        },
+        true);
+}
+
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -4293,151 +5047,6777 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
 @end
 
-@implementation CHIPOtaSoftwareUpdateProvider
+@implementation CHIPFixedLabel
 
 - (chip::Controller::ClusterBase *)getCluster
 {
     return &_cppCluster;
 }
 
-- (void)applyUpdateRequest:(CHIPOtaSoftwareUpdateProviderClusterApplyUpdateRequestPayload * _Nonnull)payload
-           responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeLabelListWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    OtaSoftwareUpdateProvider::Commands::ApplyUpdateRequest::Type request;
-    request.updateToken = [self asByteSpan:payload.updateToken];
-    request.newVersion = payload.newVersion.unsignedIntValue;
-
-    new CHIPOtaSoftwareUpdateProviderClusterApplyUpdateResponseCallbackBridge(
+    new CHIPFixedLabelLabelListListAttributeCallbackBridge(
         self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPOtaSoftwareUpdateProviderClusterApplyUpdateResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+            return self.cppCluster.ReadAttributeLabelList(success, failure);
         });
 }
 
-- (void)notifyUpdateApplied:(CHIPOtaSoftwareUpdateProviderClusterNotifyUpdateAppliedPayload * _Nonnull)payload
-            responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    OtaSoftwareUpdateProvider::Commands::NotifyUpdateApplied::Type request;
-    request.updateToken = [self asByteSpan:payload.updateToken];
-    request.softwareVersion = payload.softwareVersion.unsignedIntValue;
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)queryImage:(CHIPOtaSoftwareUpdateProviderClusterQueryImagePayload * _Nonnull)payload
-    responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    OtaSoftwareUpdateProvider::Commands::QueryImage::Type request;
-    request.vendorId = static_cast<std::remove_reference_t<decltype(request.vendorId)>>(payload.vendorId.unsignedShortValue);
-    request.productId = payload.productId.unsignedShortValue;
-    request.softwareVersion = payload.softwareVersion.unsignedIntValue;
-    {
-        using ListType = std::remove_reference_t<decltype(request.protocolsSupported)>;
-        using ListMemberType = ListMemberTypeGetter<ListType>::Type;
-        if (payload.protocolsSupported.count != 0) {
-            auto * listHolder_0 = new ListHolder<ListMemberType>(payload.protocolsSupported.count);
-            if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
-                return;
-            }
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPFlowMeasurement
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)readAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMeasuredValue(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMeasuredValue(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMeasuredValue(success);
+        },
+        true);
+}
+
+- (void)readAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMinMeasuredValue(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMinMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMinMeasuredValue(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMinMeasuredValue(success);
+        },
+        true);
+}
+
+- (void)readAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMaxMeasuredValue(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMaxMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMaxMeasuredValue(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMaxMeasuredValue(success);
+        },
+        true);
+}
+
+- (void)readAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTolerance(success, failure);
+    });
+}
+
+- (void)subscribeAttributeToleranceWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTolerance(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTolerance(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPGeneralCommissioning
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)armFailSafe:(CHIPGeneralCommissioningClusterArmFailSafePayload * _Nonnull)payload
+    responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    GeneralCommissioning::Commands::ArmFailSafe::Type request;
+    request.expiryLengthSeconds = payload.expiryLengthSeconds.unsignedShortValue;
+    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
+    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
+
+    new CHIPGeneralCommissioningClusterArmFailSafeResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPGeneralCommissioningClusterArmFailSafeResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)commissioningComplete:(CHIPGeneralCommissioningClusterCommissioningCompletePayload * _Nonnull)payload
+              responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    GeneralCommissioning::Commands::CommissioningComplete::Type request;
+
+    new CHIPGeneralCommissioningClusterCommissioningCompleteResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn
+                = Callback<CHIPGeneralCommissioningClusterCommissioningCompleteResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)setRegulatoryConfig:(CHIPGeneralCommissioningClusterSetRegulatoryConfigPayload * _Nonnull)payload
+            responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    GeneralCommissioning::Commands::SetRegulatoryConfig::Type request;
+    request.location = static_cast<std::remove_reference_t<decltype(request.location)>>(payload.location.unsignedCharValue);
+    request.countryCode = [self asCharSpan:payload.countryCode];
+    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
+    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
+
+    new CHIPGeneralCommissioningClusterSetRegulatoryConfigResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn
+                = Callback<CHIPGeneralCommissioningClusterSetRegulatoryConfigResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)readAttributeBreadcrumbWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeBreadcrumb(success, failure);
+    });
+}
+
+- (void)writeAttributeBreadcrumbWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = GeneralCommissioning::Attributes::Breadcrumb::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedLongLongValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeBreadcrumbWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeBreadcrumb(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeBreadcrumbWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBreadcrumb(success);
+        },
+        true);
+}
+
+- (void)readAttributeBasicCommissioningInfoListWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPGeneralCommissioningBasicCommissioningInfoListListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeBasicCommissioningInfoList(success, failure);
+        });
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPGeneralDiagnostics
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)readAttributeNetworkInterfacesWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPGeneralDiagnosticsNetworkInterfacesListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeNetworkInterfaces(success, failure);
+        });
+}
+
+- (void)readAttributeRebootCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRebootCount(success, failure);
+    });
+}
+
+- (void)subscribeAttributeRebootCountWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRebootCount(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeRebootCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRebootCount(success);
+        },
+        true);
+}
+
+- (void)readAttributeUpTimeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeUpTime(success, failure);
+    });
+}
+
+- (void)subscribeAttributeUpTimeWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeUpTime(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeUpTimeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeUpTime(success);
+        },
+        true);
+}
+
+- (void)readAttributeTotalOperationalHoursWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTotalOperationalHours(success, failure);
+    });
+}
+
+- (void)subscribeAttributeTotalOperationalHoursWithMinInterval:(uint16_t)minInterval
+                                                   maxInterval:(uint16_t)maxInterval
+                                               responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTotalOperationalHours(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeTotalOperationalHoursWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTotalOperationalHours(success);
+        },
+        true);
+}
+
+- (void)readAttributeBootReasonsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeBootReasons(success, failure);
+    });
+}
+
+- (void)subscribeAttributeBootReasonsWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeBootReasons(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeBootReasonsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBootReasons(success);
+        },
+        true);
+}
+
+- (void)readAttributeActiveHardwareFaultsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPGeneralDiagnosticsActiveHardwareFaultsListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeActiveHardwareFaults(success, failure);
+        });
+}
+
+- (void)readAttributeActiveRadioFaultsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPGeneralDiagnosticsActiveRadioFaultsListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeActiveRadioFaults(success, failure);
+        });
+}
+
+- (void)readAttributeActiveNetworkFaultsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPGeneralDiagnosticsActiveNetworkFaultsListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeActiveNetworkFaults(success, failure);
+        });
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPGroupKeyManagement
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)readAttributeGroupsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPGroupKeyManagementGroupsListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeGroups(success, failure);
+        });
+}
+
+- (void)readAttributeGroupKeysWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPGroupKeyManagementGroupKeysListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeGroupKeys(success, failure);
+        });
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPGroups
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)addGroup:(CHIPGroupsClusterAddGroupPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    Groups::Commands::AddGroup::Type request;
+    request.groupId = payload.groupId.unsignedShortValue;
+    request.groupName = [self asCharSpan:payload.groupName];
+
+    new CHIPGroupsClusterAddGroupResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPGroupsClusterAddGroupResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)addGroupIfIdentifying:(CHIPGroupsClusterAddGroupIfIdentifyingPayload * _Nonnull)payload
+              responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    Groups::Commands::AddGroupIfIdentifying::Type request;
+    request.groupId = payload.groupId.unsignedShortValue;
+    request.groupName = [self asCharSpan:payload.groupName];
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)getGroupMembership:(CHIPGroupsClusterGetGroupMembershipPayload * _Nonnull)payload
+           responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    Groups::Commands::GetGroupMembership::Type request;
+    {
+        using ListType = std::remove_reference_t<decltype(request.groupList)>;
+        using ListMemberType = ListMemberTypeGetter<ListType>::Type;
+        if (payload.groupList.count != 0) {
+            auto * listHolder_0 = new ListHolder<ListMemberType>(payload.groupList.count);
+            if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
+                return;
+            }
+            listFreer.add(listHolder_0);
+            for (size_t i = 0; i < payload.groupList.count; ++i) {
+                if (![payload.groupList[i] isKindOfClass:[NSNumber class]]) {
+                    // Wrong kind of value.
+                    return;
+                }
+                auto element_0 = (NSNumber *) payload.groupList[i];
+                listHolder_0->mList[i] = element_0.unsignedShortValue;
+            }
+            request.groupList = ListType(listHolder_0->mList, payload.groupList.count);
+        } else {
+            request.groupList = ListType();
+        }
+    }
+
+    new CHIPGroupsClusterGetGroupMembershipResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPGroupsClusterGetGroupMembershipResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)removeAllGroups:(CHIPGroupsClusterRemoveAllGroupsPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    Groups::Commands::RemoveAllGroups::Type request;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)removeGroup:(CHIPGroupsClusterRemoveGroupPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    Groups::Commands::RemoveGroup::Type request;
+    request.groupId = payload.groupId.unsignedShortValue;
+
+    new CHIPGroupsClusterRemoveGroupResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPGroupsClusterRemoveGroupResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)viewGroup:(CHIPGroupsClusterViewGroupPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    Groups::Commands::ViewGroup::Type request;
+    request.groupId = payload.groupId.unsignedShortValue;
+
+    new CHIPGroupsClusterViewGroupResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPGroupsClusterViewGroupResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)readAttributeNameSupportWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNameSupport(success, failure);
+    });
+}
+
+- (void)subscribeAttributeNameSupportWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeNameSupport(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeNameSupportWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNameSupport(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPIdentify
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)identify:(CHIPIdentifyClusterIdentifyPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    Identify::Commands::Identify::Type request;
+    request.identifyTime = payload.identifyTime.unsignedShortValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)identifyQuery:(CHIPIdentifyClusterIdentifyQueryPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    Identify::Commands::IdentifyQuery::Type request;
+
+    new CHIPIdentifyClusterIdentifyQueryResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPIdentifyClusterIdentifyQueryResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)triggerEffect:(CHIPIdentifyClusterTriggerEffectPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    Identify::Commands::TriggerEffect::Type request;
+    request.effectIdentifier
+        = static_cast<std::remove_reference_t<decltype(request.effectIdentifier)>>(payload.effectIdentifier.unsignedCharValue);
+    request.effectVariant
+        = static_cast<std::remove_reference_t<decltype(request.effectVariant)>>(payload.effectVariant.unsignedCharValue);
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)readAttributeIdentifyTimeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeIdentifyTime(success, failure);
+    });
+}
+
+- (void)writeAttributeIdentifyTimeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = Identify::Attributes::IdentifyTime::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedShortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeIdentifyTimeWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeIdentifyTime(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeIdentifyTimeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeIdentifyTime(success);
+        },
+        true);
+}
+
+- (void)readAttributeIdentifyTypeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeIdentifyType(success, failure);
+    });
+}
+
+- (void)subscribeAttributeIdentifyTypeWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeIdentifyType(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeIdentifyTypeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeIdentifyType(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPIlluminanceMeasurement
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)readAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMeasuredValue(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMeasuredValue(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMeasuredValue(success);
+        },
+        true);
+}
+
+- (void)readAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMinMeasuredValue(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMinMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMinMeasuredValue(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMinMeasuredValue(success);
+        },
+        true);
+}
+
+- (void)readAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMaxMeasuredValue(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMaxMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMaxMeasuredValue(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMaxMeasuredValue(success);
+        },
+        true);
+}
+
+- (void)readAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTolerance(success, failure);
+    });
+}
+
+- (void)subscribeAttributeToleranceWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTolerance(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTolerance(success);
+        },
+        true);
+}
+
+- (void)readAttributeLightSensorTypeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeLightSensorType(success, failure);
+    });
+}
+
+- (void)subscribeAttributeLightSensorTypeWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeLightSensorType(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeLightSensorTypeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeLightSensorType(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPKeypadInput
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)sendKey:(CHIPKeypadInputClusterSendKeyPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    KeypadInput::Commands::SendKey::Type request;
+    request.keyCode = static_cast<std::remove_reference_t<decltype(request.keyCode)>>(payload.keyCode.unsignedCharValue);
+
+    new CHIPKeypadInputClusterSendKeyResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPKeypadInputClusterSendKeyResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPLevelControl
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)move:(CHIPLevelControlClusterMovePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    LevelControl::Commands::Move::Type request;
+    request.moveMode = static_cast<std::remove_reference_t<decltype(request.moveMode)>>(payload.moveMode.unsignedCharValue);
+    request.rate = payload.rate.unsignedCharValue;
+    request.optionMask = payload.optionMask.unsignedCharValue;
+    request.optionOverride = payload.optionOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)moveToLevel:(CHIPLevelControlClusterMoveToLevelPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    LevelControl::Commands::MoveToLevel::Type request;
+    request.level = payload.level.unsignedCharValue;
+    request.transitionTime = payload.transitionTime.unsignedShortValue;
+    request.optionMask = payload.optionMask.unsignedCharValue;
+    request.optionOverride = payload.optionOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)moveToLevelWithOnOff:(CHIPLevelControlClusterMoveToLevelWithOnOffPayload * _Nonnull)payload
+             responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    LevelControl::Commands::MoveToLevelWithOnOff::Type request;
+    request.level = payload.level.unsignedCharValue;
+    request.transitionTime = payload.transitionTime.unsignedShortValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)moveWithOnOff:(CHIPLevelControlClusterMoveWithOnOffPayload * _Nonnull)payload
+      responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    LevelControl::Commands::MoveWithOnOff::Type request;
+    request.moveMode = static_cast<std::remove_reference_t<decltype(request.moveMode)>>(payload.moveMode.unsignedCharValue);
+    request.rate = payload.rate.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)step:(CHIPLevelControlClusterStepPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    LevelControl::Commands::Step::Type request;
+    request.stepMode = static_cast<std::remove_reference_t<decltype(request.stepMode)>>(payload.stepMode.unsignedCharValue);
+    request.stepSize = payload.stepSize.unsignedCharValue;
+    request.transitionTime = payload.transitionTime.unsignedShortValue;
+    request.optionMask = payload.optionMask.unsignedCharValue;
+    request.optionOverride = payload.optionOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)stepWithOnOff:(CHIPLevelControlClusterStepWithOnOffPayload * _Nonnull)payload
+      responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    LevelControl::Commands::StepWithOnOff::Type request;
+    request.stepMode = static_cast<std::remove_reference_t<decltype(request.stepMode)>>(payload.stepMode.unsignedCharValue);
+    request.stepSize = payload.stepSize.unsignedCharValue;
+    request.transitionTime = payload.transitionTime.unsignedShortValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)stop:(CHIPLevelControlClusterStopPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    LevelControl::Commands::Stop::Type request;
+    request.optionMask = payload.optionMask.unsignedCharValue;
+    request.optionOverride = payload.optionOverride.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)stopWithOnOff:(CHIPLevelControlClusterStopWithOnOffPayload * _Nonnull)payload
+      responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    LevelControl::Commands::StopWithOnOff::Type request;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)readAttributeCurrentLevelWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCurrentLevel(success, failure);
+    });
+}
+
+- (void)subscribeAttributeCurrentLevelWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCurrentLevel(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeCurrentLevelWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentLevel(success);
+        },
+        true);
+}
+
+- (void)readAttributeRemainingTimeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRemainingTime(success, failure);
+    });
+}
+
+- (void)subscribeAttributeRemainingTimeWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRemainingTime(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeRemainingTimeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRemainingTime(success);
+        },
+        true);
+}
+
+- (void)readAttributeMinLevelWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMinLevel(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMinLevelWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMinLevel(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMinLevelWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMinLevel(success);
+        },
+        true);
+}
+
+- (void)readAttributeMaxLevelWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMaxLevel(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMaxLevelWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMaxLevel(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMaxLevelWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMaxLevel(success);
+        },
+        true);
+}
+
+- (void)readAttributeCurrentFrequencyWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCurrentFrequency(success, failure);
+    });
+}
+
+- (void)subscribeAttributeCurrentFrequencyWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCurrentFrequency(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeCurrentFrequencyWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentFrequency(success);
+        },
+        true);
+}
+
+- (void)readAttributeMinFrequencyWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMinFrequency(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMinFrequencyWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMinFrequency(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMinFrequencyWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMinFrequency(success);
+        },
+        true);
+}
+
+- (void)readAttributeMaxFrequencyWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMaxFrequency(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMaxFrequencyWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMaxFrequency(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMaxFrequencyWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMaxFrequency(success);
+        },
+        true);
+}
+
+- (void)readAttributeOptionsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOptions(success, failure);
+    });
+}
+
+- (void)writeAttributeOptionsWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = LevelControl::Attributes::Options::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedCharValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeOptionsWithMinInterval:(uint16_t)minInterval
+                                     maxInterval:(uint16_t)maxInterval
+                                 responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOptions(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeOptionsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOptions(success);
+        },
+        true);
+}
+
+- (void)readAttributeOnOffTransitionTimeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOnOffTransitionTime(success, failure);
+    });
+}
+
+- (void)writeAttributeOnOffTransitionTimeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = LevelControl::Attributes::OnOffTransitionTime::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedShortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeOnOffTransitionTimeWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOnOffTransitionTime(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeOnOffTransitionTimeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOnOffTransitionTime(success);
+        },
+        true);
+}
+
+- (void)readAttributeOnLevelWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOnLevel(success, failure);
+    });
+}
+
+- (void)writeAttributeOnLevelWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = LevelControl::Attributes::OnLevel::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedCharValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeOnLevelWithMinInterval:(uint16_t)minInterval
+                                     maxInterval:(uint16_t)maxInterval
+                                 responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOnLevel(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeOnLevelWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOnLevel(success);
+        },
+        true);
+}
+
+- (void)readAttributeOnTransitionTimeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOnTransitionTime(success, failure);
+    });
+}
+
+- (void)writeAttributeOnTransitionTimeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = LevelControl::Attributes::OnTransitionTime::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedShortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeOnTransitionTimeWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOnTransitionTime(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeOnTransitionTimeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOnTransitionTime(success);
+        },
+        true);
+}
+
+- (void)readAttributeOffTransitionTimeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOffTransitionTime(success, failure);
+    });
+}
+
+- (void)writeAttributeOffTransitionTimeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = LevelControl::Attributes::OffTransitionTime::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedShortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeOffTransitionTimeWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOffTransitionTime(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeOffTransitionTimeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOffTransitionTime(success);
+        },
+        true);
+}
+
+- (void)readAttributeDefaultMoveRateWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeDefaultMoveRate(success, failure);
+    });
+}
+
+- (void)writeAttributeDefaultMoveRateWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = LevelControl::Attributes::DefaultMoveRate::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedCharValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeDefaultMoveRateWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeDefaultMoveRate(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeDefaultMoveRateWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeDefaultMoveRate(success);
+        },
+        true);
+}
+
+- (void)readAttributeStartUpCurrentLevelWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeStartUpCurrentLevel(success, failure);
+    });
+}
+
+- (void)writeAttributeStartUpCurrentLevelWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = LevelControl::Attributes::StartUpCurrentLevel::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedCharValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeStartUpCurrentLevelWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeStartUpCurrentLevel(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeStartUpCurrentLevelWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeStartUpCurrentLevel(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPLowPower
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)sleep:(CHIPLowPowerClusterSleepPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    LowPower::Commands::Sleep::Type request;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPMediaInput
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)hideInputStatus:(CHIPMediaInputClusterHideInputStatusPayload * _Nonnull)payload
+        responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    MediaInput::Commands::HideInputStatus::Type request;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)renameInput:(CHIPMediaInputClusterRenameInputPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    MediaInput::Commands::RenameInput::Type request;
+    request.index = payload.index.unsignedCharValue;
+    request.name = [self asCharSpan:payload.name];
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)selectInput:(CHIPMediaInputClusterSelectInputPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    MediaInput::Commands::SelectInput::Type request;
+    request.index = payload.index.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)showInputStatus:(CHIPMediaInputClusterShowInputStatusPayload * _Nonnull)payload
+        responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    MediaInput::Commands::ShowInputStatus::Type request;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)readAttributeMediaInputListWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPMediaInputMediaInputListListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeMediaInputList(success, failure);
+        });
+}
+
+- (void)readAttributeCurrentMediaInputWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCurrentMediaInput(success, failure);
+    });
+}
+
+- (void)subscribeAttributeCurrentMediaInputWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCurrentMediaInput(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeCurrentMediaInputWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentMediaInput(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPMediaPlayback
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)mediaFastForward:(CHIPMediaPlaybackClusterMediaFastForwardPayload * _Nonnull)payload
+         responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    MediaPlayback::Commands::MediaFastForward::Type request;
+
+    new CHIPMediaPlaybackClusterMediaFastForwardResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPMediaPlaybackClusterMediaFastForwardResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)mediaNext:(CHIPMediaPlaybackClusterMediaNextPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    MediaPlayback::Commands::MediaNext::Type request;
+
+    new CHIPMediaPlaybackClusterMediaNextResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPMediaPlaybackClusterMediaNextResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)mediaPause:(CHIPMediaPlaybackClusterMediaPausePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    MediaPlayback::Commands::MediaPause::Type request;
+
+    new CHIPMediaPlaybackClusterMediaPauseResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPMediaPlaybackClusterMediaPauseResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)mediaPlay:(CHIPMediaPlaybackClusterMediaPlayPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    MediaPlayback::Commands::MediaPlay::Type request;
+
+    new CHIPMediaPlaybackClusterMediaPlayResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPMediaPlaybackClusterMediaPlayResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)mediaPrevious:(CHIPMediaPlaybackClusterMediaPreviousPayload * _Nonnull)payload
+      responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    MediaPlayback::Commands::MediaPrevious::Type request;
+
+    new CHIPMediaPlaybackClusterMediaPreviousResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPMediaPlaybackClusterMediaPreviousResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)mediaRewind:(CHIPMediaPlaybackClusterMediaRewindPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    MediaPlayback::Commands::MediaRewind::Type request;
+
+    new CHIPMediaPlaybackClusterMediaRewindResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPMediaPlaybackClusterMediaRewindResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)mediaSeek:(CHIPMediaPlaybackClusterMediaSeekPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    MediaPlayback::Commands::MediaSeek::Type request;
+    request.position = payload.position.unsignedLongLongValue;
+
+    new CHIPMediaPlaybackClusterMediaSeekResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPMediaPlaybackClusterMediaSeekResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)mediaSkipBackward:(CHIPMediaPlaybackClusterMediaSkipBackwardPayload * _Nonnull)payload
+          responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    MediaPlayback::Commands::MediaSkipBackward::Type request;
+    request.deltaPositionMilliseconds = payload.deltaPositionMilliseconds.unsignedLongLongValue;
+
+    new CHIPMediaPlaybackClusterMediaSkipBackwardResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPMediaPlaybackClusterMediaSkipBackwardResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)mediaSkipForward:(CHIPMediaPlaybackClusterMediaSkipForwardPayload * _Nonnull)payload
+         responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    MediaPlayback::Commands::MediaSkipForward::Type request;
+    request.deltaPositionMilliseconds = payload.deltaPositionMilliseconds.unsignedLongLongValue;
+
+    new CHIPMediaPlaybackClusterMediaSkipForwardResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPMediaPlaybackClusterMediaSkipForwardResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)mediaStartOver:(CHIPMediaPlaybackClusterMediaStartOverPayload * _Nonnull)payload
+       responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    MediaPlayback::Commands::MediaStartOver::Type request;
+
+    new CHIPMediaPlaybackClusterMediaStartOverResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPMediaPlaybackClusterMediaStartOverResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)mediaStop:(CHIPMediaPlaybackClusterMediaStopPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    MediaPlayback::Commands::MediaStop::Type request;
+
+    new CHIPMediaPlaybackClusterMediaStopResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPMediaPlaybackClusterMediaStopResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)readAttributePlaybackStateWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePlaybackState(success, failure);
+    });
+}
+
+- (void)subscribeAttributePlaybackStateWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePlaybackState(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributePlaybackStateWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePlaybackState(success);
+        },
+        true);
+}
+
+- (void)readAttributeStartTimeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeStartTime(success, failure);
+    });
+}
+
+- (void)subscribeAttributeStartTimeWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeStartTime(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeStartTimeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeStartTime(success);
+        },
+        true);
+}
+
+- (void)readAttributeDurationWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeDuration(success, failure);
+    });
+}
+
+- (void)subscribeAttributeDurationWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeDuration(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeDurationWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeDuration(success);
+        },
+        true);
+}
+
+- (void)readAttributePositionUpdatedAtWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePositionUpdatedAt(success, failure);
+    });
+}
+
+- (void)subscribeAttributePositionUpdatedAtWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePositionUpdatedAt(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributePositionUpdatedAtWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePositionUpdatedAt(success);
+        },
+        true);
+}
+
+- (void)readAttributePositionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePosition(success, failure);
+    });
+}
+
+- (void)subscribeAttributePositionWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePosition(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributePositionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePosition(success);
+        },
+        true);
+}
+
+- (void)readAttributePlaybackSpeedWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePlaybackSpeed(success, failure);
+    });
+}
+
+- (void)subscribeAttributePlaybackSpeedWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePlaybackSpeed(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributePlaybackSpeedWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePlaybackSpeed(success);
+        },
+        true);
+}
+
+- (void)readAttributeSeekRangeEndWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeSeekRangeEnd(success, failure);
+    });
+}
+
+- (void)subscribeAttributeSeekRangeEndWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeSeekRangeEnd(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeSeekRangeEndWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeSeekRangeEnd(success);
+        },
+        true);
+}
+
+- (void)readAttributeSeekRangeStartWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeSeekRangeStart(success, failure);
+    });
+}
+
+- (void)subscribeAttributeSeekRangeStartWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeSeekRangeStart(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeSeekRangeStartWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeSeekRangeStart(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPModeSelect
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)changeToMode:(CHIPModeSelectClusterChangeToModePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    ModeSelect::Commands::ChangeToMode::Type request;
+    request.newMode = payload.newMode.unsignedCharValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)readAttributeCurrentModeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCurrentMode(success, failure);
+    });
+}
+
+- (void)subscribeAttributeCurrentModeWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCurrentMode(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeCurrentModeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentMode(success);
+        },
+        true);
+}
+
+- (void)readAttributeSupportedModesWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPModeSelectSupportedModesListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeSupportedModes(success, failure);
+        });
+}
+
+- (void)readAttributeOnModeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOnMode(success, failure);
+    });
+}
+
+- (void)writeAttributeOnModeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = ModeSelect::Attributes::OnMode::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedCharValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeOnModeWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOnMode(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeOnModeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOnMode(success);
+        },
+        true);
+}
+
+- (void)readAttributeStartUpModeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeStartUpMode(success, failure);
+    });
+}
+
+- (void)subscribeAttributeStartUpModeWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeStartUpMode(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeStartUpModeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeStartUpMode(success);
+        },
+        true);
+}
+
+- (void)readAttributeDescriptionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeDescription(success, failure);
+    });
+}
+
+- (void)subscribeAttributeDescriptionWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeDescription(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeDescriptionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeDescription(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPNetworkCommissioning
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)addThreadNetwork:(CHIPNetworkCommissioningClusterAddThreadNetworkPayload * _Nonnull)payload
+         responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    NetworkCommissioning::Commands::AddThreadNetwork::Type request;
+    request.operationalDataset = [self asByteSpan:payload.operationalDataset];
+    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
+    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
+
+    new CHIPNetworkCommissioningClusterAddThreadNetworkResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPNetworkCommissioningClusterAddThreadNetworkResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)addWiFiNetwork:(CHIPNetworkCommissioningClusterAddWiFiNetworkPayload * _Nonnull)payload
+       responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    NetworkCommissioning::Commands::AddWiFiNetwork::Type request;
+    request.ssid = [self asByteSpan:payload.ssid];
+    request.credentials = [self asByteSpan:payload.credentials];
+    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
+    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
+
+    new CHIPNetworkCommissioningClusterAddWiFiNetworkResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPNetworkCommissioningClusterAddWiFiNetworkResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)disableNetwork:(CHIPNetworkCommissioningClusterDisableNetworkPayload * _Nonnull)payload
+       responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    NetworkCommissioning::Commands::DisableNetwork::Type request;
+    request.networkID = [self asByteSpan:payload.networkID];
+    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
+    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
+
+    new CHIPNetworkCommissioningClusterDisableNetworkResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPNetworkCommissioningClusterDisableNetworkResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)enableNetwork:(CHIPNetworkCommissioningClusterEnableNetworkPayload * _Nonnull)payload
+      responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    NetworkCommissioning::Commands::EnableNetwork::Type request;
+    request.networkID = [self asByteSpan:payload.networkID];
+    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
+    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
+
+    new CHIPNetworkCommissioningClusterEnableNetworkResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPNetworkCommissioningClusterEnableNetworkResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)removeNetwork:(CHIPNetworkCommissioningClusterRemoveNetworkPayload * _Nonnull)payload
+      responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    NetworkCommissioning::Commands::RemoveNetwork::Type request;
+    request.networkID = [self asByteSpan:payload.networkID];
+    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
+    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
+
+    new CHIPNetworkCommissioningClusterRemoveNetworkResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPNetworkCommissioningClusterRemoveNetworkResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)scanNetworks:(CHIPNetworkCommissioningClusterScanNetworksPayload * _Nonnull)payload
+     responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    NetworkCommissioning::Commands::ScanNetworks::Type request;
+    request.ssid = [self asByteSpan:payload.ssid];
+    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
+    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
+
+    new CHIPNetworkCommissioningClusterScanNetworksResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPNetworkCommissioningClusterScanNetworksResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)updateThreadNetwork:(CHIPNetworkCommissioningClusterUpdateThreadNetworkPayload * _Nonnull)payload
+            responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    NetworkCommissioning::Commands::UpdateThreadNetwork::Type request;
+    request.operationalDataset = [self asByteSpan:payload.operationalDataset];
+    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
+    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
+
+    new CHIPNetworkCommissioningClusterUpdateThreadNetworkResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn
+                = Callback<CHIPNetworkCommissioningClusterUpdateThreadNetworkResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)updateWiFiNetwork:(CHIPNetworkCommissioningClusterUpdateWiFiNetworkPayload * _Nonnull)payload
+          responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    NetworkCommissioning::Commands::UpdateWiFiNetwork::Type request;
+    request.ssid = [self asByteSpan:payload.ssid];
+    request.credentials = [self asByteSpan:payload.credentials];
+    request.breadcrumb = payload.breadcrumb.unsignedLongLongValue;
+    request.timeoutMs = payload.timeoutMs.unsignedIntValue;
+
+    new CHIPNetworkCommissioningClusterUpdateWiFiNetworkResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn
+                = Callback<CHIPNetworkCommissioningClusterUpdateWiFiNetworkResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)readAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeFeatureMap(success, failure);
+    });
+}
+
+- (void)subscribeAttributeFeatureMapWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeFeatureMap(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeFeatureMap(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPOtaSoftwareUpdateProvider
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)applyUpdateRequest:(CHIPOtaSoftwareUpdateProviderClusterApplyUpdateRequestPayload * _Nonnull)payload
+           responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    OtaSoftwareUpdateProvider::Commands::ApplyUpdateRequest::Type request;
+    request.updateToken = [self asByteSpan:payload.updateToken];
+    request.newVersion = payload.newVersion.unsignedIntValue;
+
+    new CHIPOtaSoftwareUpdateProviderClusterApplyUpdateResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPOtaSoftwareUpdateProviderClusterApplyUpdateResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)notifyUpdateApplied:(CHIPOtaSoftwareUpdateProviderClusterNotifyUpdateAppliedPayload * _Nonnull)payload
+            responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    OtaSoftwareUpdateProvider::Commands::NotifyUpdateApplied::Type request;
+    request.updateToken = [self asByteSpan:payload.updateToken];
+    request.softwareVersion = payload.softwareVersion.unsignedIntValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)queryImage:(CHIPOtaSoftwareUpdateProviderClusterQueryImagePayload * _Nonnull)payload
+    responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    OtaSoftwareUpdateProvider::Commands::QueryImage::Type request;
+    request.vendorId = static_cast<std::remove_reference_t<decltype(request.vendorId)>>(payload.vendorId.unsignedShortValue);
+    request.productId = payload.productId.unsignedShortValue;
+    request.softwareVersion = payload.softwareVersion.unsignedIntValue;
+    {
+        using ListType = std::remove_reference_t<decltype(request.protocolsSupported)>;
+        using ListMemberType = ListMemberTypeGetter<ListType>::Type;
+        if (payload.protocolsSupported.count != 0) {
+            auto * listHolder_0 = new ListHolder<ListMemberType>(payload.protocolsSupported.count);
+            if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
+                return;
+            }
+            listFreer.add(listHolder_0);
+            for (size_t i = 0; i < payload.protocolsSupported.count; ++i) {
+                if (![payload.protocolsSupported[i] isKindOfClass:[NSNumber class]]) {
+                    // Wrong kind of value.
+                    return;
+                }
+                auto element_0 = (NSNumber *) payload.protocolsSupported[i];
+                listHolder_0->mList[i]
+                    = static_cast<std::remove_reference_t<decltype(listHolder_0->mList[i])>>(element_0.unsignedCharValue);
+            }
+            request.protocolsSupported = ListType(listHolder_0->mList, payload.protocolsSupported.count);
+        } else {
+            request.protocolsSupported = ListType();
+        }
+    }
+    if (payload.hardwareVersion != nil) {
+        auto & definedValue_0 = request.hardwareVersion.Emplace();
+        definedValue_0 = payload.hardwareVersion.unsignedShortValue;
+    }
+    if (payload.location != nil) {
+        auto & definedValue_0 = request.location.Emplace();
+        definedValue_0 = [self asCharSpan:payload.location];
+    }
+    if (payload.requestorCanConsent != nil) {
+        auto & definedValue_0 = request.requestorCanConsent.Emplace();
+        definedValue_0 = payload.requestorCanConsent.boolValue;
+    }
+    if (payload.metadataForProvider != nil) {
+        auto & definedValue_0 = request.metadataForProvider.Emplace();
+        definedValue_0 = [self asByteSpan:payload.metadataForProvider];
+    }
+
+    new CHIPOtaSoftwareUpdateProviderClusterQueryImageResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPOtaSoftwareUpdateProviderClusterQueryImageResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPOtaSoftwareUpdateRequestor
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)announceOtaProvider:(CHIPOtaSoftwareUpdateRequestorClusterAnnounceOtaProviderPayload * _Nonnull)payload
+            responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    OtaSoftwareUpdateRequestor::Commands::AnnounceOtaProvider::Type request;
+    request.providerLocation = payload.providerLocation.unsignedLongLongValue;
+    request.vendorId = static_cast<std::remove_reference_t<decltype(request.vendorId)>>(payload.vendorId.unsignedShortValue);
+    request.announcementReason
+        = static_cast<std::remove_reference_t<decltype(request.announcementReason)>>(payload.announcementReason.unsignedCharValue);
+    if (payload.metadataForNode != nil) {
+        auto & definedValue_0 = request.metadataForNode.Emplace();
+        definedValue_0 = [self asByteSpan:payload.metadataForNode];
+    }
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)readAttributeDefaultOtaProviderWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeDefaultOtaProvider(success, failure);
+    });
+}
+
+- (void)writeAttributeDefaultOtaProviderWithValue:(NSData * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = OtaSoftwareUpdateRequestor::Attributes::DefaultOtaProvider::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = [self asByteSpan:value];
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeDefaultOtaProviderWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeDefaultOtaProvider(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeDefaultOtaProviderWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPOctetStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeDefaultOtaProvider(success);
+        },
+        true);
+}
+
+- (void)readAttributeUpdatePossibleWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeUpdatePossible(success, failure);
+    });
+}
+
+- (void)subscribeAttributeUpdatePossibleWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeUpdatePossible(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeUpdatePossibleWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeUpdatePossible(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPOccupancySensing
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)readAttributeOccupancyWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOccupancy(success, failure);
+    });
+}
+
+- (void)subscribeAttributeOccupancyWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOccupancy(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeOccupancyWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOccupancy(success);
+        },
+        true);
+}
+
+- (void)readAttributeOccupancySensorTypeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOccupancySensorType(success, failure);
+    });
+}
+
+- (void)subscribeAttributeOccupancySensorTypeWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOccupancySensorType(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeOccupancySensorTypeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOccupancySensorType(success);
+        },
+        true);
+}
+
+- (void)readAttributeOccupancySensorTypeBitmapWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOccupancySensorTypeBitmap(success, failure);
+    });
+}
+
+- (void)subscribeAttributeOccupancySensorTypeBitmapWithMinInterval:(uint16_t)minInterval
+                                                       maxInterval:(uint16_t)maxInterval
+                                                   responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOccupancySensorTypeBitmap(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeOccupancySensorTypeBitmapWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOccupancySensorTypeBitmap(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPOnOff
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)off:(CHIPOnOffClusterOffPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    OnOff::Commands::Off::Type request;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)offWithEffect:(CHIPOnOffClusterOffWithEffectPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    OnOff::Commands::OffWithEffect::Type request;
+    request.effectId = static_cast<std::remove_reference_t<decltype(request.effectId)>>(payload.effectId.unsignedCharValue);
+    request.effectVariant
+        = static_cast<std::remove_reference_t<decltype(request.effectVariant)>>(payload.effectVariant.unsignedCharValue);
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)on:(CHIPOnOffClusterOnPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    OnOff::Commands::On::Type request;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)onWithRecallGlobalScene:(CHIPOnOffClusterOnWithRecallGlobalScenePayload * _Nonnull)payload
+                responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    OnOff::Commands::OnWithRecallGlobalScene::Type request;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)onWithTimedOff:(CHIPOnOffClusterOnWithTimedOffPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    OnOff::Commands::OnWithTimedOff::Type request;
+    request.onOffControl
+        = static_cast<std::remove_reference_t<decltype(request.onOffControl)>>(payload.onOffControl.unsignedCharValue);
+    request.onTime = payload.onTime.unsignedShortValue;
+    request.offWaitTime = payload.offWaitTime.unsignedShortValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)toggle:(CHIPOnOffClusterTogglePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    OnOff::Commands::Toggle::Type request;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)readAttributeOnOffWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOnOff(success, failure);
+    });
+}
+
+- (void)subscribeAttributeOnOffWithMinInterval:(uint16_t)minInterval
+                                   maxInterval:(uint16_t)maxInterval
+                               responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOnOff(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeOnOffWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOnOff(success);
+        },
+        true);
+}
+
+- (void)readAttributeGlobalSceneControlWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeGlobalSceneControl(success, failure);
+    });
+}
+
+- (void)subscribeAttributeGlobalSceneControlWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeGlobalSceneControl(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeGlobalSceneControlWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeGlobalSceneControl(success);
+        },
+        true);
+}
+
+- (void)readAttributeOnTimeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOnTime(success, failure);
+    });
+}
+
+- (void)writeAttributeOnTimeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = OnOff::Attributes::OnTime::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedShortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeOnTimeWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOnTime(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeOnTimeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOnTime(success);
+        },
+        true);
+}
+
+- (void)readAttributeOffWaitTimeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOffWaitTime(success, failure);
+    });
+}
+
+- (void)writeAttributeOffWaitTimeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = OnOff::Attributes::OffWaitTime::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedShortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeOffWaitTimeWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOffWaitTime(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeOffWaitTimeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOffWaitTime(success);
+        },
+        true);
+}
+
+- (void)readAttributeStartUpOnOffWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeStartUpOnOff(success, failure);
+    });
+}
+
+- (void)writeAttributeStartUpOnOffWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = OnOff::Attributes::StartUpOnOff::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeStartUpOnOffWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeStartUpOnOff(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeStartUpOnOffWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeStartUpOnOff(success);
+        },
+        true);
+}
+
+- (void)readAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeFeatureMap(success, failure);
+    });
+}
+
+- (void)subscribeAttributeFeatureMapWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeFeatureMap(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeFeatureMap(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPOnOffSwitchConfiguration
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)readAttributeSwitchTypeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeSwitchType(success, failure);
+    });
+}
+
+- (void)subscribeAttributeSwitchTypeWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeSwitchType(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeSwitchTypeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeSwitchType(success);
+        },
+        true);
+}
+
+- (void)readAttributeSwitchActionsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeSwitchActions(success, failure);
+    });
+}
+
+- (void)writeAttributeSwitchActionsWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = OnOffSwitchConfiguration::Attributes::SwitchActions::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeSwitchActionsWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeSwitchActions(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeSwitchActionsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeSwitchActions(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPOperationalCredentials
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)addNOC:(CHIPOperationalCredentialsClusterAddNOCPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    OperationalCredentials::Commands::AddNOC::Type request;
+    request.NOCValue = [self asByteSpan:payload.nocValue];
+    if (payload.icacValue != nil) {
+        auto & definedValue_0 = request.ICACValue.Emplace();
+        definedValue_0 = [self asByteSpan:payload.icacValue];
+    }
+    request.IPKValue = [self asByteSpan:payload.ipkValue];
+    request.caseAdminNode = payload.caseAdminNode.unsignedLongLongValue;
+    request.adminVendorId = payload.adminVendorId.unsignedShortValue;
+
+    new CHIPOperationalCredentialsClusterNOCResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPOperationalCredentialsClusterNOCResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)addTrustedRootCertificate:(CHIPOperationalCredentialsClusterAddTrustedRootCertificatePayload * _Nonnull)payload
+                  responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    OperationalCredentials::Commands::AddTrustedRootCertificate::Type request;
+    request.rootCertificate = [self asByteSpan:payload.rootCertificate];
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)attestationRequest:(CHIPOperationalCredentialsClusterAttestationRequestPayload * _Nonnull)payload
+           responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    OperationalCredentials::Commands::AttestationRequest::Type request;
+    request.attestationNonce = [self asByteSpan:payload.attestationNonce];
+
+    new CHIPOperationalCredentialsClusterAttestationResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPOperationalCredentialsClusterAttestationResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)certificateChainRequest:(CHIPOperationalCredentialsClusterCertificateChainRequestPayload * _Nonnull)payload
+                responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    OperationalCredentials::Commands::CertificateChainRequest::Type request;
+    request.certificateType = payload.certificateType.unsignedCharValue;
+
+    new CHIPOperationalCredentialsClusterCertificateChainResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn
+                = Callback<CHIPOperationalCredentialsClusterCertificateChainResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)opCSRRequest:(CHIPOperationalCredentialsClusterOpCSRRequestPayload * _Nonnull)payload
+     responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    OperationalCredentials::Commands::OpCSRRequest::Type request;
+    request.CSRNonce = [self asByteSpan:payload.csrNonce];
+
+    new CHIPOperationalCredentialsClusterOpCSRResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPOperationalCredentialsClusterOpCSRResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)removeFabric:(CHIPOperationalCredentialsClusterRemoveFabricPayload * _Nonnull)payload
+     responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    OperationalCredentials::Commands::RemoveFabric::Type request;
+    request.fabricIndex = payload.fabricIndex.unsignedCharValue;
+
+    new CHIPOperationalCredentialsClusterNOCResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPOperationalCredentialsClusterNOCResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)removeTrustedRootCertificate:(CHIPOperationalCredentialsClusterRemoveTrustedRootCertificatePayload * _Nonnull)payload
+                     responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    OperationalCredentials::Commands::RemoveTrustedRootCertificate::Type request;
+    request.trustedRootIdentifier = [self asByteSpan:payload.trustedRootIdentifier];
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)updateFabricLabel:(CHIPOperationalCredentialsClusterUpdateFabricLabelPayload * _Nonnull)payload
+          responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    OperationalCredentials::Commands::UpdateFabricLabel::Type request;
+    request.label = [self asCharSpan:payload.label];
+
+    new CHIPOperationalCredentialsClusterNOCResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPOperationalCredentialsClusterNOCResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)updateNOC:(CHIPOperationalCredentialsClusterUpdateNOCPayload * _Nonnull)payload
+    responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    OperationalCredentials::Commands::UpdateNOC::Type request;
+    request.NOCValue = [self asByteSpan:payload.nocValue];
+    if (payload.icacValue != nil) {
+        auto & definedValue_0 = request.ICACValue.Emplace();
+        definedValue_0 = [self asByteSpan:payload.icacValue];
+    }
+
+    new CHIPOperationalCredentialsClusterNOCResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPOperationalCredentialsClusterNOCResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)readAttributeFabricsListWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPOperationalCredentialsFabricsListListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeFabricsList(success, failure);
+        });
+}
+
+- (void)readAttributeSupportedFabricsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeSupportedFabrics(success, failure);
+    });
+}
+
+- (void)subscribeAttributeSupportedFabricsWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeSupportedFabrics(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeSupportedFabricsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeSupportedFabrics(success);
+        },
+        true);
+}
+
+- (void)readAttributeCommissionedFabricsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCommissionedFabrics(success, failure);
+    });
+}
+
+- (void)subscribeAttributeCommissionedFabricsWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCommissionedFabrics(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeCommissionedFabricsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCommissionedFabrics(success);
+        },
+        true);
+}
+
+- (void)readAttributeTrustedRootCertificatesWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPOperationalCredentialsTrustedRootCertificatesListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeTrustedRootCertificates(success, failure);
+        });
+}
+
+- (void)readAttributeCurrentFabricIndexWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCurrentFabricIndex(success, failure);
+    });
+}
+
+- (void)subscribeAttributeCurrentFabricIndexWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCurrentFabricIndex(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeCurrentFabricIndexWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentFabricIndex(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPPowerSource
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)readAttributeStatusWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeStatus(success, failure);
+    });
+}
+
+- (void)subscribeAttributeStatusWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeStatus(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeStatusWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeStatus(success);
+        },
+        true);
+}
+
+- (void)readAttributeOrderWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOrder(success, failure);
+    });
+}
+
+- (void)subscribeAttributeOrderWithMinInterval:(uint16_t)minInterval
+                                   maxInterval:(uint16_t)maxInterval
+                               responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOrder(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeOrderWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOrder(success);
+        },
+        true);
+}
+
+- (void)readAttributeDescriptionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeDescription(success, failure);
+    });
+}
+
+- (void)subscribeAttributeDescriptionWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeDescription(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeDescriptionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPCharStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeDescription(success);
+        },
+        true);
+}
+
+- (void)readAttributeBatteryVoltageWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeBatteryVoltage(success, failure);
+    });
+}
+
+- (void)subscribeAttributeBatteryVoltageWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeBatteryVoltage(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeBatteryVoltageWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBatteryVoltage(success);
+        },
+        true);
+}
+
+- (void)readAttributeBatteryPercentRemainingWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeBatteryPercentRemaining(success, failure);
+    });
+}
+
+- (void)subscribeAttributeBatteryPercentRemainingWithMinInterval:(uint16_t)minInterval
+                                                     maxInterval:(uint16_t)maxInterval
+                                                 responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeBatteryPercentRemaining(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeBatteryPercentRemainingWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBatteryPercentRemaining(success);
+        },
+        true);
+}
+
+- (void)readAttributeBatteryTimeRemainingWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeBatteryTimeRemaining(success, failure);
+    });
+}
+
+- (void)subscribeAttributeBatteryTimeRemainingWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeBatteryTimeRemaining(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeBatteryTimeRemainingWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBatteryTimeRemaining(success);
+        },
+        true);
+}
+
+- (void)readAttributeBatteryChargeLevelWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeBatteryChargeLevel(success, failure);
+    });
+}
+
+- (void)subscribeAttributeBatteryChargeLevelWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeBatteryChargeLevel(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeBatteryChargeLevelWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBatteryChargeLevel(success);
+        },
+        true);
+}
+
+- (void)readAttributeActiveBatteryFaultsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPPowerSourceActiveBatteryFaultsListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeActiveBatteryFaults(success, failure);
+        });
+}
+
+- (void)readAttributeBatteryChargeStateWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeBatteryChargeState(success, failure);
+    });
+}
+
+- (void)subscribeAttributeBatteryChargeStateWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeBatteryChargeState(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeBatteryChargeStateWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBatteryChargeState(success);
+        },
+        true);
+}
+
+- (void)readAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeFeatureMap(success, failure);
+    });
+}
+
+- (void)subscribeAttributeFeatureMapWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeFeatureMap(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeFeatureMap(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPPressureMeasurement
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)readAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMeasuredValue(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMeasuredValue(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMeasuredValue(success);
+        },
+        true);
+}
+
+- (void)readAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMinMeasuredValue(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMinMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMinMeasuredValue(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMinMeasuredValue(success);
+        },
+        true);
+}
+
+- (void)readAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMaxMeasuredValue(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMaxMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMaxMeasuredValue(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMaxMeasuredValue(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPPumpConfigurationAndControl
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)readAttributeMaxPressureWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMaxPressure(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMaxPressureWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMaxPressure(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMaxPressureWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMaxPressure(success);
+        },
+        true);
+}
+
+- (void)readAttributeMaxSpeedWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMaxSpeed(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMaxSpeedWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMaxSpeed(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMaxSpeedWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMaxSpeed(success);
+        },
+        true);
+}
+
+- (void)readAttributeMaxFlowWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMaxFlow(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMaxFlowWithMinInterval:(uint16_t)minInterval
+                                     maxInterval:(uint16_t)maxInterval
+                                 responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMaxFlow(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMaxFlowWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMaxFlow(success);
+        },
+        true);
+}
+
+- (void)readAttributeMinConstPressureWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMinConstPressure(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMinConstPressureWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMinConstPressure(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMinConstPressureWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMinConstPressure(success);
+        },
+        true);
+}
+
+- (void)readAttributeMaxConstPressureWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMaxConstPressure(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMaxConstPressureWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMaxConstPressure(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMaxConstPressureWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMaxConstPressure(success);
+        },
+        true);
+}
+
+- (void)readAttributeMinCompPressureWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMinCompPressure(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMinCompPressureWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMinCompPressure(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMinCompPressureWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMinCompPressure(success);
+        },
+        true);
+}
+
+- (void)readAttributeMaxCompPressureWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMaxCompPressure(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMaxCompPressureWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMaxCompPressure(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMaxCompPressureWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMaxCompPressure(success);
+        },
+        true);
+}
+
+- (void)readAttributeMinConstSpeedWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMinConstSpeed(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMinConstSpeedWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMinConstSpeed(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMinConstSpeedWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMinConstSpeed(success);
+        },
+        true);
+}
+
+- (void)readAttributeMaxConstSpeedWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMaxConstSpeed(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMaxConstSpeedWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMaxConstSpeed(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMaxConstSpeedWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMaxConstSpeed(success);
+        },
+        true);
+}
+
+- (void)readAttributeMinConstFlowWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMinConstFlow(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMinConstFlowWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMinConstFlow(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMinConstFlowWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMinConstFlow(success);
+        },
+        true);
+}
+
+- (void)readAttributeMaxConstFlowWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMaxConstFlow(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMaxConstFlowWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMaxConstFlow(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMaxConstFlowWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMaxConstFlow(success);
+        },
+        true);
+}
+
+- (void)readAttributeMinConstTempWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMinConstTemp(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMinConstTempWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMinConstTemp(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMinConstTempWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMinConstTemp(success);
+        },
+        true);
+}
+
+- (void)readAttributeMaxConstTempWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMaxConstTemp(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMaxConstTempWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMaxConstTemp(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMaxConstTempWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMaxConstTemp(success);
+        },
+        true);
+}
+
+- (void)readAttributePumpStatusWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePumpStatus(success, failure);
+    });
+}
+
+- (void)subscribeAttributePumpStatusWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePumpStatus(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributePumpStatusWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePumpStatus(success);
+        },
+        true);
+}
+
+- (void)readAttributeEffectiveOperationModeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeEffectiveOperationMode(success, failure);
+    });
+}
+
+- (void)subscribeAttributeEffectiveOperationModeWithMinInterval:(uint16_t)minInterval
+                                                    maxInterval:(uint16_t)maxInterval
+                                                responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeEffectiveOperationMode(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeEffectiveOperationModeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeEffectiveOperationMode(success);
+        },
+        true);
+}
+
+- (void)readAttributeEffectiveControlModeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeEffectiveControlMode(success, failure);
+    });
+}
+
+- (void)subscribeAttributeEffectiveControlModeWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeEffectiveControlMode(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeEffectiveControlModeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeEffectiveControlMode(success);
+        },
+        true);
+}
+
+- (void)readAttributeCapacityWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCapacity(success, failure);
+    });
+}
+
+- (void)subscribeAttributeCapacityWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCapacity(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeCapacityWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCapacity(success);
+        },
+        true);
+}
+
+- (void)readAttributeSpeedWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeSpeed(success, failure);
+    });
+}
+
+- (void)subscribeAttributeSpeedWithMinInterval:(uint16_t)minInterval
+                                   maxInterval:(uint16_t)maxInterval
+                               responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeSpeed(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeSpeedWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeSpeed(success);
+        },
+        true);
+}
+
+- (void)readAttributeLifetimeEnergyConsumedWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeLifetimeEnergyConsumed(success, failure);
+    });
+}
+
+- (void)subscribeAttributeLifetimeEnergyConsumedWithMinInterval:(uint16_t)minInterval
+                                                    maxInterval:(uint16_t)maxInterval
+                                                responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeLifetimeEnergyConsumed(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeLifetimeEnergyConsumedWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeLifetimeEnergyConsumed(success);
+        },
+        true);
+}
+
+- (void)readAttributeOperationModeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOperationMode(success, failure);
+    });
+}
+
+- (void)writeAttributeOperationModeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = PumpConfigurationAndControl::Attributes::OperationMode::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeOperationModeWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOperationMode(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeOperationModeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOperationMode(success);
+        },
+        true);
+}
+
+- (void)readAttributeControlModeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeControlMode(success, failure);
+    });
+}
+
+- (void)writeAttributeControlModeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = PumpConfigurationAndControl::Attributes::ControlMode::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeControlModeWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeControlMode(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeControlModeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeControlMode(success);
+        },
+        true);
+}
+
+- (void)readAttributeAlarmMaskWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeAlarmMask(success, failure);
+    });
+}
+
+- (void)subscribeAttributeAlarmMaskWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeAlarmMask(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeAlarmMaskWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeAlarmMask(success);
+        },
+        true);
+}
+
+- (void)readAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeFeatureMap(success, failure);
+    });
+}
+
+- (void)subscribeAttributeFeatureMapWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeFeatureMap(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeFeatureMap(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPRelativeHumidityMeasurement
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)readAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMeasuredValue(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMeasuredValue(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMeasuredValue(success);
+        },
+        true);
+}
+
+- (void)readAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMinMeasuredValue(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMinMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMinMeasuredValue(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMinMeasuredValue(success);
+        },
+        true);
+}
+
+- (void)readAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMaxMeasuredValue(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMaxMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMaxMeasuredValue(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMaxMeasuredValue(success);
+        },
+        true);
+}
+
+- (void)readAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTolerance(success, failure);
+    });
+}
+
+- (void)subscribeAttributeToleranceWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTolerance(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTolerance(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPScenes
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)addScene:(CHIPScenesClusterAddScenePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    Scenes::Commands::AddScene::Type request;
+    request.groupId = payload.groupId.unsignedShortValue;
+    request.sceneId = payload.sceneId.unsignedCharValue;
+    request.transitionTime = payload.transitionTime.unsignedShortValue;
+    request.sceneName = [self asCharSpan:payload.sceneName];
+    {
+        using ListType = std::remove_reference_t<decltype(request.extensionFieldSets)>;
+        using ListMemberType = ListMemberTypeGetter<ListType>::Type;
+        if (payload.extensionFieldSets.count != 0) {
+            auto * listHolder_0 = new ListHolder<ListMemberType>(payload.extensionFieldSets.count);
+            if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
+                return;
+            }
+            listFreer.add(listHolder_0);
+            for (size_t i = 0; i < payload.extensionFieldSets.count; ++i) {
+                if (![payload.extensionFieldSets[i] isKindOfClass:[CHIPScenesClusterSceneExtensionFieldSet class]]) {
+                    // Wrong kind of value.
+                    return;
+                }
+                auto element_0 = (CHIPScenesClusterSceneExtensionFieldSet *) payload.extensionFieldSets[i];
+                listHolder_0->mList[i].clusterId = element_0.clusterId.unsignedIntValue;
+                listHolder_0->mList[i].length = element_0.length.unsignedCharValue;
+                listHolder_0->mList[i].value = element_0.value.unsignedCharValue;
+            }
+            request.extensionFieldSets = ListType(listHolder_0->mList, payload.extensionFieldSets.count);
+        } else {
+            request.extensionFieldSets = ListType();
+        }
+    }
+
+    new CHIPScenesClusterAddSceneResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPScenesClusterAddSceneResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)getSceneMembership:(CHIPScenesClusterGetSceneMembershipPayload * _Nonnull)payload
+           responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    Scenes::Commands::GetSceneMembership::Type request;
+    request.groupId = payload.groupId.unsignedShortValue;
+
+    new CHIPScenesClusterGetSceneMembershipResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPScenesClusterGetSceneMembershipResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)recallScene:(CHIPScenesClusterRecallScenePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    Scenes::Commands::RecallScene::Type request;
+    request.groupId = payload.groupId.unsignedShortValue;
+    request.sceneId = payload.sceneId.unsignedCharValue;
+    request.transitionTime = payload.transitionTime.unsignedShortValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)removeAllScenes:(CHIPScenesClusterRemoveAllScenesPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    Scenes::Commands::RemoveAllScenes::Type request;
+    request.groupId = payload.groupId.unsignedShortValue;
+
+    new CHIPScenesClusterRemoveAllScenesResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPScenesClusterRemoveAllScenesResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)removeScene:(CHIPScenesClusterRemoveScenePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    Scenes::Commands::RemoveScene::Type request;
+    request.groupId = payload.groupId.unsignedShortValue;
+    request.sceneId = payload.sceneId.unsignedCharValue;
+
+    new CHIPScenesClusterRemoveSceneResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPScenesClusterRemoveSceneResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)storeScene:(CHIPScenesClusterStoreScenePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    Scenes::Commands::StoreScene::Type request;
+    request.groupId = payload.groupId.unsignedShortValue;
+    request.sceneId = payload.sceneId.unsignedCharValue;
+
+    new CHIPScenesClusterStoreSceneResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPScenesClusterStoreSceneResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)viewScene:(CHIPScenesClusterViewScenePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    Scenes::Commands::ViewScene::Type request;
+    request.groupId = payload.groupId.unsignedShortValue;
+    request.sceneId = payload.sceneId.unsignedCharValue;
+
+    new CHIPScenesClusterViewSceneResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPScenesClusterViewSceneResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)readAttributeSceneCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeSceneCount(success, failure);
+    });
+}
+
+- (void)subscribeAttributeSceneCountWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeSceneCount(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeSceneCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeSceneCount(success);
+        },
+        true);
+}
+
+- (void)readAttributeCurrentSceneWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCurrentScene(success, failure);
+    });
+}
+
+- (void)subscribeAttributeCurrentSceneWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCurrentScene(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeCurrentSceneWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentScene(success);
+        },
+        true);
+}
+
+- (void)readAttributeCurrentGroupWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCurrentGroup(success, failure);
+    });
+}
+
+- (void)subscribeAttributeCurrentGroupWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCurrentGroup(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeCurrentGroupWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentGroup(success);
+        },
+        true);
+}
+
+- (void)readAttributeSceneValidWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeSceneValid(success, failure);
+    });
+}
+
+- (void)subscribeAttributeSceneValidWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeSceneValid(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeSceneValidWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeSceneValid(success);
+        },
+        true);
+}
+
+- (void)readAttributeNameSupportWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNameSupport(success, failure);
+    });
+}
+
+- (void)subscribeAttributeNameSupportWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeNameSupport(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeNameSupportWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNameSupport(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPSoftwareDiagnostics
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)resetWatermarks:(CHIPSoftwareDiagnosticsClusterResetWatermarksPayload * _Nonnull)payload
+        responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    SoftwareDiagnostics::Commands::ResetWatermarks::Type request;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)readAttributeThreadMetricsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPSoftwareDiagnosticsThreadMetricsListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeThreadMetrics(success, failure);
+        });
+}
+
+- (void)readAttributeCurrentHeapFreeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCurrentHeapFree(success, failure);
+    });
+}
+
+- (void)subscribeAttributeCurrentHeapFreeWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCurrentHeapFree(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeCurrentHeapFreeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentHeapFree(success);
+        },
+        true);
+}
+
+- (void)readAttributeCurrentHeapUsedWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCurrentHeapUsed(success, failure);
+    });
+}
+
+- (void)subscribeAttributeCurrentHeapUsedWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCurrentHeapUsed(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeCurrentHeapUsedWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentHeapUsed(success);
+        },
+        true);
+}
+
+- (void)readAttributeCurrentHeapHighWatermarkWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCurrentHeapHighWatermark(success, failure);
+    });
+}
+
+- (void)subscribeAttributeCurrentHeapHighWatermarkWithMinInterval:(uint16_t)minInterval
+                                                      maxInterval:(uint16_t)maxInterval
+                                                  responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCurrentHeapHighWatermark(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeCurrentHeapHighWatermarkWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentHeapHighWatermark(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPSwitch
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)readAttributeNumberOfPositionsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNumberOfPositions(success, failure);
+    });
+}
+
+- (void)subscribeAttributeNumberOfPositionsWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeNumberOfPositions(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeNumberOfPositionsWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNumberOfPositions(success);
+        },
+        true);
+}
+
+- (void)readAttributeCurrentPositionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCurrentPosition(success, failure);
+    });
+}
+
+- (void)subscribeAttributeCurrentPositionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCurrentPosition(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeCurrentPositionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentPosition(success);
+        },
+        true);
+}
+
+- (void)readAttributeMultiPressMaxWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMultiPressMax(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMultiPressMaxWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMultiPressMax(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMultiPressMaxWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMultiPressMax(success);
+        },
+        true);
+}
+
+- (void)readAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeFeatureMap(success, failure);
+    });
+}
+
+- (void)subscribeAttributeFeatureMapWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeFeatureMap(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeFeatureMap(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPTvChannel
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)changeChannel:(CHIPTvChannelClusterChangeChannelPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    TvChannel::Commands::ChangeChannel::Type request;
+    request.match = [self asCharSpan:payload.match];
+
+    new CHIPTvChannelClusterChangeChannelResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPTvChannelClusterChangeChannelResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)changeChannelByNumber:(CHIPTvChannelClusterChangeChannelByNumberPayload * _Nonnull)payload
+              responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    TvChannel::Commands::ChangeChannelByNumber::Type request;
+    request.majorNumber = payload.majorNumber.unsignedShortValue;
+    request.minorNumber = payload.minorNumber.unsignedShortValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)skipChannel:(CHIPTvChannelClusterSkipChannelPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    TvChannel::Commands::SkipChannel::Type request;
+    request.count = payload.count.unsignedShortValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)readAttributeTvChannelListWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPTvChannelTvChannelListListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeTvChannelList(success, failure);
+        });
+}
+
+- (void)readAttributeTvChannelLineupWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTvChannelLineup(success, failure);
+    });
+}
+
+- (void)subscribeAttributeTvChannelLineupWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTvChannelLineup(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeTvChannelLineupWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPOctetStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTvChannelLineup(success);
+        },
+        true);
+}
+
+- (void)readAttributeCurrentTvChannelWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCurrentTvChannel(success, failure);
+    });
+}
+
+- (void)subscribeAttributeCurrentTvChannelWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCurrentTvChannel(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeCurrentTvChannelWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPOctetStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentTvChannel(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPTargetNavigator
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)navigateTarget:(CHIPTargetNavigatorClusterNavigateTargetPayload * _Nonnull)payload
+       responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    TargetNavigator::Commands::NavigateTarget::Type request;
+    request.target = payload.target.unsignedCharValue;
+    request.data = [self asCharSpan:payload.data];
+
+    new CHIPTargetNavigatorClusterNavigateTargetResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPTargetNavigatorClusterNavigateTargetResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)readAttributeTargetNavigatorListWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPTargetNavigatorTargetNavigatorListListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeTargetNavigatorList(success, failure);
+        });
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPTemperatureMeasurement
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)readAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMeasuredValue(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMeasuredValue(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMeasuredValue(success);
+        },
+        true);
+}
+
+- (void)readAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMinMeasuredValue(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMinMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMinMeasuredValue(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMinMeasuredValue(success);
+        },
+        true);
+}
+
+- (void)readAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMaxMeasuredValue(success, failure);
+    });
+}
+
+- (void)subscribeAttributeMaxMeasuredValueWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMaxMeasuredValue(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMaxMeasuredValue(success);
+        },
+        true);
+}
+
+- (void)readAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTolerance(success, failure);
+    });
+}
+
+- (void)subscribeAttributeToleranceWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTolerance(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTolerance(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
+
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPTestCluster
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
+}
+
+- (void)test:(CHIPTestClusterClusterTestPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    TestCluster::Commands::Test::Type request;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)testAddArguments:(CHIPTestClusterClusterTestAddArgumentsPayload * _Nonnull)payload
+         responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    TestCluster::Commands::TestAddArguments::Type request;
+    request.arg1 = payload.arg1.unsignedCharValue;
+    request.arg2 = payload.arg2.unsignedCharValue;
+
+    new CHIPTestClusterClusterTestAddArgumentsResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPTestClusterClusterTestAddArgumentsResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)testEnumsRequest:(CHIPTestClusterClusterTestEnumsRequestPayload * _Nonnull)payload
+         responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    TestCluster::Commands::TestEnumsRequest::Type request;
+    request.arg1 = static_cast<std::remove_reference_t<decltype(request.arg1)>>(payload.arg1.unsignedShortValue);
+    request.arg2 = static_cast<std::remove_reference_t<decltype(request.arg2)>>(payload.arg2.unsignedCharValue);
+
+    new CHIPTestClusterClusterTestEnumsResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPTestClusterClusterTestEnumsResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)testListInt8UArgumentRequest:(CHIPTestClusterClusterTestListInt8UArgumentRequestPayload * _Nonnull)payload
+                     responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    TestCluster::Commands::TestListInt8UArgumentRequest::Type request;
+    {
+        using ListType = std::remove_reference_t<decltype(request.arg1)>;
+        using ListMemberType = ListMemberTypeGetter<ListType>::Type;
+        if (payload.arg1.count != 0) {
+            auto * listHolder_0 = new ListHolder<ListMemberType>(payload.arg1.count);
+            if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
+                return;
+            }
             listFreer.add(listHolder_0);
-            for (size_t i = 0; i < payload.protocolsSupported.count; ++i) {
-                if (![payload.protocolsSupported[i] isKindOfClass:[NSNumber class]]) {
+            for (size_t i = 0; i < payload.arg1.count; ++i) {
+                if (![payload.arg1[i] isKindOfClass:[NSNumber class]]) {
+                    // Wrong kind of value.
+                    return;
+                }
+                auto element_0 = (NSNumber *) payload.arg1[i];
+                listHolder_0->mList[i] = element_0.unsignedCharValue;
+            }
+            request.arg1 = ListType(listHolder_0->mList, payload.arg1.count);
+        } else {
+            request.arg1 = ListType();
+        }
+    }
+
+    new CHIPTestClusterClusterBooleanResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPTestClusterClusterBooleanResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)testListInt8UReverseRequest:(CHIPTestClusterClusterTestListInt8UReverseRequestPayload * _Nonnull)payload
+                    responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    TestCluster::Commands::TestListInt8UReverseRequest::Type request;
+    {
+        using ListType = std::remove_reference_t<decltype(request.arg1)>;
+        using ListMemberType = ListMemberTypeGetter<ListType>::Type;
+        if (payload.arg1.count != 0) {
+            auto * listHolder_0 = new ListHolder<ListMemberType>(payload.arg1.count);
+            if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
+                return;
+            }
+            listFreer.add(listHolder_0);
+            for (size_t i = 0; i < payload.arg1.count; ++i) {
+                if (![payload.arg1[i] isKindOfClass:[NSNumber class]]) {
+                    // Wrong kind of value.
+                    return;
+                }
+                auto element_0 = (NSNumber *) payload.arg1[i];
+                listHolder_0->mList[i] = element_0.unsignedCharValue;
+            }
+            request.arg1 = ListType(listHolder_0->mList, payload.arg1.count);
+        } else {
+            request.arg1 = ListType();
+        }
+    }
+
+    new CHIPTestClusterClusterTestListInt8UReverseResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPTestClusterClusterTestListInt8UReverseResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)testListStructArgumentRequest:(CHIPTestClusterClusterTestListStructArgumentRequestPayload * _Nonnull)payload
+                      responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    TestCluster::Commands::TestListStructArgumentRequest::Type request;
+    {
+        using ListType = std::remove_reference_t<decltype(request.arg1)>;
+        using ListMemberType = ListMemberTypeGetter<ListType>::Type;
+        if (payload.arg1.count != 0) {
+            auto * listHolder_0 = new ListHolder<ListMemberType>(payload.arg1.count);
+            if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
+                return;
+            }
+            listFreer.add(listHolder_0);
+            for (size_t i = 0; i < payload.arg1.count; ++i) {
+                if (![payload.arg1[i] isKindOfClass:[CHIPTestClusterClusterSimpleStruct class]]) {
                     // Wrong kind of value.
                     return;
                 }
-                auto element_0 = (NSNumber *) payload.protocolsSupported[i];
-                listHolder_0->mList[i]
-                    = static_cast<std::remove_reference_t<decltype(listHolder_0->mList[i])>>(element_0.unsignedCharValue);
-            }
-            request.protocolsSupported = ListType(listHolder_0->mList, payload.protocolsSupported.count);
-        } else {
-            request.protocolsSupported = ListType();
-        }
-    }
-    if (payload.hardwareVersion != nil) {
-        auto & definedValue_0 = request.hardwareVersion.Emplace();
-        definedValue_0 = payload.hardwareVersion.unsignedShortValue;
-    }
-    if (payload.location != nil) {
-        auto & definedValue_0 = request.location.Emplace();
-        definedValue_0 = [self asCharSpan:payload.location];
-    }
-    if (payload.requestorCanConsent != nil) {
-        auto & definedValue_0 = request.requestorCanConsent.Emplace();
-        definedValue_0 = payload.requestorCanConsent.boolValue;
-    }
-    if (payload.metadataForProvider != nil) {
-        auto & definedValue_0 = request.metadataForProvider.Emplace();
-        definedValue_0 = [self asByteSpan:payload.metadataForProvider];
-    }
+                auto element_0 = (CHIPTestClusterClusterSimpleStruct *) payload.arg1[i];
+                listHolder_0->mList[i].a = element_0.a.unsignedCharValue;
+                listHolder_0->mList[i].b = element_0.b.boolValue;
+                listHolder_0->mList[i].c
+                    = static_cast<std::remove_reference_t<decltype(listHolder_0->mList[i].c)>>(element_0.c.unsignedCharValue);
+                listHolder_0->mList[i].d = [self asByteSpan:element_0.d];
+                listHolder_0->mList[i].e = [self asCharSpan:element_0.e];
+                listHolder_0->mList[i].f
+                    = static_cast<std::remove_reference_t<decltype(listHolder_0->mList[i].f)>>(element_0.f.unsignedCharValue);
+            }
+            request.arg1 = ListType(listHolder_0->mList, payload.arg1.count);
+        } else {
+            request.arg1 = ListType();
+        }
+    }
+
+    new CHIPTestClusterClusterBooleanResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPTestClusterClusterBooleanResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)testNotHandled:(CHIPTestClusterClusterTestNotHandledPayload * _Nonnull)payload
+       responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    TestCluster::Commands::TestNotHandled::Type request;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)testNullableOptionalRequest:(CHIPTestClusterClusterTestNullableOptionalRequestPayload * _Nonnull)payload
+                    responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    TestCluster::Commands::TestNullableOptionalRequest::Type request;
+    if (payload.arg1 != nil) {
+        auto & definedValue_0 = request.arg1.Emplace();
+        if (payload.arg1 == nil) {
+            definedValue_0.SetNull();
+        } else {
+            auto & nonNullValue_1 = definedValue_0.SetNonNull();
+            nonNullValue_1 = payload.arg1.unsignedCharValue;
+        }
+    }
+
+    new CHIPTestClusterClusterTestNullableOptionalResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPTestClusterClusterTestNullableOptionalResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)testSpecific:(CHIPTestClusterClusterTestSpecificPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    TestCluster::Commands::TestSpecific::Type request;
+
+    new CHIPTestClusterClusterTestSpecificResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPTestClusterClusterTestSpecificResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)testStructArgumentRequest:(CHIPTestClusterClusterTestStructArgumentRequestPayload * _Nonnull)payload
+                  responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    TestCluster::Commands::TestStructArgumentRequest::Type request;
+    request.arg1.a = payload.arg1.a.unsignedCharValue;
+    request.arg1.b = payload.arg1.b.boolValue;
+    request.arg1.c = static_cast<std::remove_reference_t<decltype(request.arg1.c)>>(payload.arg1.c.unsignedCharValue);
+    request.arg1.d = [self asByteSpan:payload.arg1.d];
+    request.arg1.e = [self asCharSpan:payload.arg1.e];
+    request.arg1.f = static_cast<std::remove_reference_t<decltype(request.arg1.f)>>(payload.arg1.f.unsignedCharValue);
+
+    new CHIPTestClusterClusterBooleanResponseCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            auto successFn = Callback<CHIPTestClusterClusterBooleanResponseCallbackType>::FromCancelable(success);
+            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        });
+}
+
+- (void)testUnknownCommand:(CHIPTestClusterClusterTestUnknownCommandPayload * _Nonnull)payload
+           responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    TestCluster::Commands::TestUnknownCommand::Type request;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)readAttributeBooleanWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeBoolean(success, failure);
+    });
+}
+
+- (void)writeAttributeBooleanWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::Boolean::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.boolValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeBooleanWithMinInterval:(uint16_t)minInterval
+                                     maxInterval:(uint16_t)maxInterval
+                                 responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeBoolean(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeBooleanWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBoolean(success);
+        },
+        true);
+}
+
+- (void)readAttributeBitmap8WithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeBitmap8(success, failure);
+    });
+}
+
+- (void)writeAttributeBitmap8WithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::Bitmap8::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedCharValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeBitmap8WithMinInterval:(uint16_t)minInterval
+                                     maxInterval:(uint16_t)maxInterval
+                                 responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeBitmap8(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeBitmap8WithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBitmap8(success);
+        },
+        true);
+}
+
+- (void)readAttributeBitmap16WithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeBitmap16(success, failure);
+    });
+}
+
+- (void)writeAttributeBitmap16WithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::Bitmap16::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedShortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeBitmap16WithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeBitmap16(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeBitmap16WithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBitmap16(success);
+        },
+        true);
+}
+
+- (void)readAttributeBitmap32WithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeBitmap32(success, failure);
+    });
+}
+
+- (void)writeAttributeBitmap32WithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::Bitmap32::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedIntValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeBitmap32WithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeBitmap32(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeBitmap32WithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBitmap32(success);
+        },
+        true);
+}
+
+- (void)readAttributeBitmap64WithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeBitmap64(success, failure);
+    });
+}
+
+- (void)writeAttributeBitmap64WithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::Bitmap64::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedLongLongValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeBitmap64WithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeBitmap64(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeBitmap64WithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBitmap64(success);
+        },
+        true);
+}
+
+- (void)readAttributeInt8uWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeInt8u(success, failure);
+    });
+}
+
+- (void)writeAttributeInt8uWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::Int8u::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedCharValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeInt8uWithMinInterval:(uint16_t)minInterval
+                                   maxInterval:(uint16_t)maxInterval
+                               responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeInt8u(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeInt8uWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeInt8u(success);
+        },
+        true);
+}
+
+- (void)readAttributeInt16uWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeInt16u(success, failure);
+    });
+}
+
+- (void)writeAttributeInt16uWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::Int16u::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedShortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeInt16uWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeInt16u(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeInt16uWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeInt16u(success);
+        },
+        true);
+}
+
+- (void)readAttributeInt32uWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeInt32u(success, failure);
+    });
+}
+
+- (void)writeAttributeInt32uWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::Int32u::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedIntValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeInt32uWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeInt32u(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeInt32uWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeInt32u(success);
+        },
+        true);
+}
+
+- (void)readAttributeInt64uWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeInt64u(success, failure);
+    });
+}
+
+- (void)writeAttributeInt64uWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::Int64u::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedLongLongValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeInt64uWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeInt64u(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeInt64uWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeInt64u(success);
+        },
+        true);
+}
+
+- (void)readAttributeInt8sWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeInt8s(success, failure);
+    });
+}
+
+- (void)writeAttributeInt8sWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::Int8s::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.charValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeInt8sWithMinInterval:(uint16_t)minInterval
+                                   maxInterval:(uint16_t)maxInterval
+                               responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeInt8s(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeInt8sWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeInt8s(success);
+        },
+        true);
+}
+
+- (void)readAttributeInt16sWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeInt16s(success, failure);
+    });
+}
+
+- (void)writeAttributeInt16sWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::Int16s::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.shortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeInt16sWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeInt16s(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeInt16sWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeInt16s(success);
+        },
+        true);
+}
+
+- (void)readAttributeInt32sWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeInt32s(success, failure);
+    });
+}
+
+- (void)writeAttributeInt32sWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::Int32s::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.intValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeInt32sWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeInt32s(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeInt32sWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeInt32s(success);
+        },
+        true);
+}
+
+- (void)readAttributeInt64sWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeInt64s(success, failure);
+    });
+}
+
+- (void)writeAttributeInt64sWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::Int64s::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.longLongValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeInt64sWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeInt64s(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeInt64sWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeInt64s(success);
+        },
+        true);
+}
+
+- (void)readAttributeEnum8WithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeEnum8(success, failure);
+    });
+}
+
+- (void)writeAttributeEnum8WithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::Enum8::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeEnum8WithMinInterval:(uint16_t)minInterval
+                                   maxInterval:(uint16_t)maxInterval
+                               responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeEnum8(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeEnum8WithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeEnum8(success);
+        },
+        true);
+}
+
+- (void)readAttributeEnum16WithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeEnum16(success, failure);
+    });
+}
+
+- (void)writeAttributeEnum16WithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::Enum16::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedShortValue);
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeEnum16WithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeEnum16(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeEnum16WithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeEnum16(success);
+        },
+        true);
+}
+
+- (void)readAttributeOctetStringWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOctetString(success, failure);
+    });
+}
+
+- (void)writeAttributeOctetStringWithValue:(NSData * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::OctetString::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = [self asByteSpan:value];
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
+
+- (void)subscribeAttributeOctetStringWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOctetString(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeOctetStringWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPOctetStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOctetString(success);
+        },
+        true);
+}
+
+- (void)readAttributeListInt8uWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPTestClusterListInt8uListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeListInt8u(success, failure);
+        });
+}
+
+- (void)writeAttributeListInt8uWithValue:(NSArray * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::ListInt8u::TypeInfo;
+        TypeInfo::Type cppValue;
+        {
+            using ListType = std::remove_reference_t<decltype(cppValue)>;
+            using ListMemberType = ListMemberTypeGetter<ListType>::Type;
+            if (value.count != 0) {
+                auto * listHolder_0 = new ListHolder<ListMemberType>(value.count);
+                if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
+                    return CHIP_ERROR_INVALID_ARGUMENT;
+                }
+                listFreer.add(listHolder_0);
+                for (size_t i = 0; i < value.count; ++i) {
+                    if (![value[i] isKindOfClass:[NSNumber class]]) {
+                        // Wrong kind of value.
+                        return CHIP_ERROR_INVALID_ARGUMENT;
+                    }
+                    auto element_0 = (NSNumber *) value[i];
+                    listHolder_0->mList[i] = element_0.unsignedCharValue;
+                }
+                cppValue = ListType(listHolder_0->mList, value.count);
+            } else {
+                cppValue = ListType();
+            }
+        }
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
+}
 
-    new CHIPOtaSoftwareUpdateProviderClusterQueryImageResponseCallbackBridge(
+- (void)readAttributeListOctetStringWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPTestClusterListOctetStringListAttributeCallbackBridge(
         self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPOtaSoftwareUpdateProviderClusterQueryImageResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+            return self.cppCluster.ReadAttributeListOctetString(success, failure);
         });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeListOctetStringWithValue:(NSArray * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::ListOctetString::TypeInfo;
+        TypeInfo::Type cppValue;
+        {
+            using ListType = std::remove_reference_t<decltype(cppValue)>;
+            using ListMemberType = ListMemberTypeGetter<ListType>::Type;
+            if (value.count != 0) {
+                auto * listHolder_0 = new ListHolder<ListMemberType>(value.count);
+                if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
+                    return CHIP_ERROR_INVALID_ARGUMENT;
+                }
+                listFreer.add(listHolder_0);
+                for (size_t i = 0; i < value.count; ++i) {
+                    if (![value[i] isKindOfClass:[NSData class]]) {
+                        // Wrong kind of value.
+                        return CHIP_ERROR_INVALID_ARGUMENT;
+                    }
+                    auto element_0 = (NSData *) value[i];
+                    listHolder_0->mList[i] = [self asByteSpan:element_0];
+                }
+                cppValue = ListType(listHolder_0->mList, value.count);
+            } else {
+                cppValue = ListType();
+            }
+        }
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-@end
-
-@implementation CHIPOtaSoftwareUpdateRequestor
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)readAttributeListStructOctetStringWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPTestClusterListStructOctetStringListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeListStructOctetString(success, failure);
+        });
 }
 
-- (void)announceOtaProvider:(CHIPOtaSoftwareUpdateRequestorClusterAnnounceOtaProviderPayload * _Nonnull)payload
-            responseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeListStructOctetStringWithValue:(NSArray * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    OtaSoftwareUpdateRequestor::Commands::AnnounceOtaProvider::Type request;
-    request.providerLocation = payload.providerLocation.unsignedLongLongValue;
-    request.vendorId = static_cast<std::remove_reference_t<decltype(request.vendorId)>>(payload.vendorId.unsignedShortValue);
-    request.announcementReason
-        = static_cast<std::remove_reference_t<decltype(request.announcementReason)>>(payload.announcementReason.unsignedCharValue);
-    if (payload.metadataForNode != nil) {
-        auto & definedValue_0 = request.metadataForNode.Emplace();
-        definedValue_0 = [self asByteSpan:payload.metadataForNode];
-    }
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::ListStructOctetString::TypeInfo;
+        TypeInfo::Type cppValue;
+        {
+            using ListType = std::remove_reference_t<decltype(cppValue)>;
+            using ListMemberType = ListMemberTypeGetter<ListType>::Type;
+            if (value.count != 0) {
+                auto * listHolder_0 = new ListHolder<ListMemberType>(value.count);
+                if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
+                    return CHIP_ERROR_INVALID_ARGUMENT;
+                }
+                listFreer.add(listHolder_0);
+                for (size_t i = 0; i < value.count; ++i) {
+                    if (![value[i] isKindOfClass:[CHIPTestClusterClusterTestListStructOctet class]]) {
+                        // Wrong kind of value.
+                        return CHIP_ERROR_INVALID_ARGUMENT;
+                    }
+                    auto element_0 = (CHIPTestClusterClusterTestListStructOctet *) value[i];
+                    listHolder_0->mList[i].fabricIndex = element_0.fabricIndex.unsignedLongLongValue;
+                    listHolder_0->mList[i].operationalCert = [self asByteSpan:element_0.operationalCert];
+                }
+                cppValue = ListType(listHolder_0->mList, value.count);
+            } else {
+                cppValue = ListType();
+            }
+        }
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeDefaultOtaProviderWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeLongOctetStringWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeDefaultOtaProvider(success, failure);
+        return self.cppCluster.ReadAttributeLongOctetString(success, failure);
     });
 }
 
-- (void)writeAttributeDefaultOtaProviderWithValue:(NSData * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeLongOctetStringWithValue:(NSData * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         ListFreer listFreer;
-        using TypeInfo = OtaSoftwareUpdateRequestor::Attributes::DefaultOtaProvider::TypeInfo;
+        using TypeInfo = TestCluster::Attributes::LongOctetString::TypeInfo;
         TypeInfo::Type cppValue;
         cppValue = [self asByteSpan:value];
         auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
@@ -4446,1724 +11826,1927 @@ new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
-- (void)readAttributeUpdatePossibleWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeLongOctetStringWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeUpdatePossible(success, failure);
+    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeLongOctetString(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeLongOctetStringWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
-    });
+    new CHIPOctetStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeLongOctetString(success);
+        },
+        true);
 }
 
-@end
-
-@implementation CHIPOccupancySensing
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)readAttributeCharStringWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCharString(success, failure);
+    });
 }
 
-- (void)readAttributeOccupancyWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeCharStringWithValue:(NSString * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOccupancy(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::CharString::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = [self asCharSpan:value];
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)subscribeAttributeOccupancyWithMinInterval:(uint16_t)minInterval
-                                       maxInterval:(uint16_t)maxInterval
-                                   responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeCharStringWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeOccupancy(success, failure, minInterval, maxInterval);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCharString(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)reportAttributeOccupancyWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeCharStringWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(
+    new CHIPCharStringAttributeCallbackBridge(
         self.callbackQueue, responseHandler,
         ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeOccupancy(success);
+            return self.cppCluster.ReportAttributeCharString(success);
         },
         true);
 }
 
-- (void)readAttributeOccupancySensorTypeWithResponseHandler:(ResponseHandler)responseHandler
-{
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOccupancySensorType(success, failure);
-    });
-}
-
-- (void)readAttributeOccupancySensorTypeBitmapWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeLongCharStringWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOccupancySensorTypeBitmap(success, failure);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeLongCharString(success, failure);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeLongCharStringWithValue:(NSString * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::LongCharString::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = [self asCharSpan:value];
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-@end
-
-@implementation CHIPOnOff
-
-- (chip::Controller::ClusterBase *)getCluster
-{
-    return &_cppCluster;
-}
-
-- (void)off:(CHIPOnOffClusterOffPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeLongCharStringWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    OnOff::Commands::Off::Type request;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeLongCharString(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)offWithEffect:(CHIPOnOffClusterOffWithEffectPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeLongCharStringWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    OnOff::Commands::OffWithEffect::Type request;
-    request.effectId = static_cast<std::remove_reference_t<decltype(request.effectId)>>(payload.effectId.unsignedCharValue);
-    request.effectVariant
-        = static_cast<std::remove_reference_t<decltype(request.effectVariant)>>(payload.effectVariant.unsignedCharValue);
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPCharStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeLongCharString(success);
+        },
+        true);
 }
 
-- (void)on:(CHIPOnOffClusterOnPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeEpochUsWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    OnOff::Commands::On::Type request;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeEpochUs(success, failure);
     });
 }
 
-- (void)onWithRecallGlobalScene:(CHIPOnOffClusterOnWithRecallGlobalScenePayload * _Nonnull)payload
-                responseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeEpochUsWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    OnOff::Commands::OnWithRecallGlobalScene::Type request;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::EpochUs::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedLongLongValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)onWithTimedOff:(CHIPOnOffClusterOnWithTimedOffPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeEpochUsWithMinInterval:(uint16_t)minInterval
+                                     maxInterval:(uint16_t)maxInterval
+                                 responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    OnOff::Commands::OnWithTimedOff::Type request;
-    request.onOffControl
-        = static_cast<std::remove_reference_t<decltype(request.onOffControl)>>(payload.onOffControl.unsignedCharValue);
-    request.onTime = payload.onTime.unsignedShortValue;
-    request.offWaitTime = payload.offWaitTime.unsignedShortValue;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeEpochUs(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)toggle:(CHIPOnOffClusterTogglePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeEpochUsWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    OnOff::Commands::Toggle::Type request;
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeEpochUs(success);
+        },
+        true);
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+- (void)readAttributeEpochSWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeEpochS(success, failure);
     });
 }
 
-- (void)readAttributeOnOffWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeEpochSWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOnOff(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::EpochS::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.unsignedIntValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)subscribeAttributeOnOffWithMinInterval:(uint16_t)minInterval
-                                   maxInterval:(uint16_t)maxInterval
-                               responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeEpochSWithMinInterval:(uint16_t)minInterval
+                                    maxInterval:(uint16_t)maxInterval
+                                responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeOnOff(success, failure, minInterval, maxInterval);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeEpochS(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)reportAttributeOnOffWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeEpochSWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(
+    new CHIPInt32uAttributeCallbackBridge(
         self.callbackQueue, responseHandler,
         ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeOnOff(success);
+            return self.cppCluster.ReportAttributeEpochS(success);
         },
         true);
 }
 
-- (void)readAttributeGlobalSceneControlWithResponseHandler:(ResponseHandler)responseHandler
-{
-    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeGlobalSceneControl(success, failure);
-    });
-}
-
-- (void)readAttributeOnTimeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeVendorIdWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOnTime(success, failure);
+        return self.cppCluster.ReadAttributeVendorId(success, failure);
     });
 }
 
-- (void)writeAttributeOnTimeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeVendorIdWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         ListFreer listFreer;
-        using TypeInfo = OnOff::Attributes::OnTime::TypeInfo;
+        using TypeInfo = TestCluster::Attributes::VendorId::TypeInfo;
         TypeInfo::Type cppValue;
-        cppValue = value.unsignedShortValue;
+        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedShortValue);
         auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
         return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeOffWaitTimeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeVendorIdWithMinInterval:(uint16_t)minInterval
+                                      maxInterval:(uint16_t)maxInterval
+                                  responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOffWaitTime(success, failure);
+        return self.cppCluster.SubscribeAttributeVendorId(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeOffWaitTimeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeVendorIdWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeVendorId(success);
+        },
+        true);
+}
+
+- (void)readAttributeListNullablesAndOptionalsStructWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPTestClusterListNullablesAndOptionalsStructListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeListNullablesAndOptionalsStruct(success, failure);
+        });
+}
+
+- (void)readAttributeUnsupportedWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeUnsupported(success, failure);
+    });
+}
+
+- (void)writeAttributeUnsupportedWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         ListFreer listFreer;
-        using TypeInfo = OnOff::Attributes::OffWaitTime::TypeInfo;
+        using TypeInfo = TestCluster::Attributes::Unsupported::TypeInfo;
         TypeInfo::Type cppValue;
-        cppValue = value.unsignedShortValue;
+        cppValue = value.boolValue;
         auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
         return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeStartUpOnOffWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeUnsupportedWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeStartUpOnOff(success, failure);
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeUnsupported(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeStartUpOnOffWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeUnsupportedWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeUnsupported(success);
+        },
+        true);
+}
+
+- (void)readAttributeNullableBooleanWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNullableBoolean(success, failure);
+    });
+}
+
+- (void)writeAttributeNullableBooleanWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         ListFreer listFreer;
-        using TypeInfo = OnOff::Attributes::StartUpOnOff::TypeInfo;
+        using TypeInfo = TestCluster::Attributes::NullableBoolean::TypeInfo;
         TypeInfo::Type cppValue;
-        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
+        if (value == nil) {
+            cppValue.SetNull();
+        } else {
+            auto & nonNullValue_0 = cppValue.SetNonNull();
+            nonNullValue_0 = value.boolValue;
+        }
         auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
         return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNullableBooleanWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeFeatureMap(success, failure);
+    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeNullableBoolean(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeNullableBooleanWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
-    });
+    new CHIPBooleanAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNullableBoolean(success);
+        },
+        true);
 }
 
-@end
-
-@implementation CHIPOnOffSwitchConfiguration
+- (void)readAttributeNullableBitmap8WithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNullableBitmap8(success, failure);
+    });
+}
 
-- (chip::Controller::ClusterBase *)getCluster
+- (void)writeAttributeNullableBitmap8WithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::NullableBitmap8::TypeInfo;
+        TypeInfo::Type cppValue;
+        if (value == nil) {
+            cppValue.SetNull();
+        } else {
+            auto & nonNullValue_0 = cppValue.SetNonNull();
+            nonNullValue_0 = value.unsignedCharValue;
+        }
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
 }
 
-- (void)readAttributeSwitchTypeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNullableBitmap8WithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeSwitchType(success, failure);
+        return self.cppCluster.SubscribeAttributeNullableBitmap8(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeSwitchActionsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeNullableBitmap8WithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeSwitchActions(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNullableBitmap8(success);
+        },
+        true);
+}
+
+- (void)readAttributeNullableBitmap16WithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNullableBitmap16(success, failure);
     });
 }
 
-- (void)writeAttributeSwitchActionsWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeNullableBitmap16WithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         ListFreer listFreer;
-        using TypeInfo = OnOffSwitchConfiguration::Attributes::SwitchActions::TypeInfo;
+        using TypeInfo = TestCluster::Attributes::NullableBitmap16::TypeInfo;
         TypeInfo::Type cppValue;
-        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
+        if (value == nil) {
+            cppValue.SetNull();
+        } else {
+            auto & nonNullValue_0 = cppValue.SetNonNull();
+            nonNullValue_0 = value.unsignedShortValue;
+        }
         auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
         return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNullableBitmap16WithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+        return self.cppCluster.SubscribeAttributeNullableBitmap16(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
-
-@implementation CHIPOperationalCredentials
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributeNullableBitmap16WithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNullableBitmap16(success);
+        },
+        true);
 }
 
-- (void)addNOC:(CHIPOperationalCredentialsClusterAddNOCPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeNullableBitmap32WithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    OperationalCredentials::Commands::AddNOC::Type request;
-    request.NOCValue = [self asByteSpan:payload.nocValue];
-    if (payload.icacValue != nil) {
-        auto & definedValue_0 = request.ICACValue.Emplace();
-        definedValue_0 = [self asByteSpan:payload.icacValue];
-    }
-    request.IPKValue = [self asByteSpan:payload.ipkValue];
-    request.caseAdminNode = payload.caseAdminNode.unsignedLongLongValue;
-    request.adminVendorId = payload.adminVendorId.unsignedShortValue;
-
-    new CHIPOperationalCredentialsClusterNOCResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPOperationalCredentialsClusterNOCResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNullableBitmap32(success, failure);
+    });
 }
 
-- (void)addTrustedRootCertificate:(CHIPOperationalCredentialsClusterAddTrustedRootCertificatePayload * _Nonnull)payload
-                  responseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeNullableBitmap32WithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    OperationalCredentials::Commands::AddTrustedRootCertificate::Type request;
-    request.rootCertificate = [self asByteSpan:payload.rootCertificate];
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::NullableBitmap32::TypeInfo;
+        TypeInfo::Type cppValue;
+        if (value == nil) {
+            cppValue.SetNull();
+        } else {
+            auto & nonNullValue_0 = cppValue.SetNonNull();
+            nonNullValue_0 = value.unsignedIntValue;
+        }
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)attestationRequest:(CHIPOperationalCredentialsClusterAttestationRequestPayload * _Nonnull)payload
-           responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNullableBitmap32WithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    OperationalCredentials::Commands::AttestationRequest::Type request;
-    request.attestationNonce = [self asByteSpan:payload.attestationNonce];
-
-    new CHIPOperationalCredentialsClusterAttestationResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPOperationalCredentialsClusterAttestationResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeNullableBitmap32(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)certificateChainRequest:(CHIPOperationalCredentialsClusterCertificateChainRequestPayload * _Nonnull)payload
-                responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeNullableBitmap32WithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    OperationalCredentials::Commands::CertificateChainRequest::Type request;
-    request.certificateType = payload.certificateType.unsignedCharValue;
-
-    new CHIPOperationalCredentialsClusterCertificateChainResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn
-                = Callback<CHIPOperationalCredentialsClusterCertificateChainResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNullableBitmap32(success);
+        },
+        true);
 }
 
-- (void)opCSRRequest:(CHIPOperationalCredentialsClusterOpCSRRequestPayload * _Nonnull)payload
-     responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeNullableBitmap64WithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    OperationalCredentials::Commands::OpCSRRequest::Type request;
-    request.CSRNonce = [self asByteSpan:payload.csrNonce];
-
-    new CHIPOperationalCredentialsClusterOpCSRResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPOperationalCredentialsClusterOpCSRResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNullableBitmap64(success, failure);
+    });
 }
 
-- (void)removeFabric:(CHIPOperationalCredentialsClusterRemoveFabricPayload * _Nonnull)payload
-     responseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeNullableBitmap64WithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    OperationalCredentials::Commands::RemoveFabric::Type request;
-    request.fabricIndex = payload.fabricIndex.unsignedCharValue;
-
-    new CHIPOperationalCredentialsClusterNOCResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPOperationalCredentialsClusterNOCResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::NullableBitmap64::TypeInfo;
+        TypeInfo::Type cppValue;
+        if (value == nil) {
+            cppValue.SetNull();
+        } else {
+            auto & nonNullValue_0 = cppValue.SetNonNull();
+            nonNullValue_0 = value.unsignedLongLongValue;
+        }
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
 }
 
-- (void)removeTrustedRootCertificate:(CHIPOperationalCredentialsClusterRemoveTrustedRootCertificatePayload * _Nonnull)payload
-                     responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNullableBitmap64WithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    OperationalCredentials::Commands::RemoveTrustedRootCertificate::Type request;
-    request.trustedRootIdentifier = [self asByteSpan:payload.trustedRootIdentifier];
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeNullableBitmap64(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)updateFabricLabel:(CHIPOperationalCredentialsClusterUpdateFabricLabelPayload * _Nonnull)payload
-          responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeNullableBitmap64WithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    OperationalCredentials::Commands::UpdateFabricLabel::Type request;
-    request.label = [self asCharSpan:payload.label];
-
-    new CHIPOperationalCredentialsClusterNOCResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPOperationalCredentialsClusterNOCResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNullableBitmap64(success);
+        },
+        true);
 }
 
-- (void)updateNOC:(CHIPOperationalCredentialsClusterUpdateNOCPayload * _Nonnull)payload
-    responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeNullableInt8uWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    OperationalCredentials::Commands::UpdateNOC::Type request;
-    request.NOCValue = [self asByteSpan:payload.nocValue];
-    if (payload.icacValue != nil) {
-        auto & definedValue_0 = request.ICACValue.Emplace();
-        definedValue_0 = [self asByteSpan:payload.icacValue];
-    }
-
-    new CHIPOperationalCredentialsClusterNOCResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPOperationalCredentialsClusterNOCResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNullableInt8u(success, failure);
+    });
 }
 
-- (void)readAttributeFabricsListWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeNullableInt8uWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPOperationalCredentialsFabricsListListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeFabricsList(success, failure);
-        });
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::NullableInt8u::TypeInfo;
+        TypeInfo::Type cppValue;
+        if (value == nil) {
+            cppValue.SetNull();
+        } else {
+            auto & nonNullValue_0 = cppValue.SetNonNull();
+            nonNullValue_0 = value.unsignedCharValue;
+        }
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
 }
 
-- (void)readAttributeSupportedFabricsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNullableInt8uWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeSupportedFabrics(success, failure);
+        return self.cppCluster.SubscribeAttributeNullableInt8u(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeCommissionedFabricsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeNullableInt8uWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCommissionedFabrics(success, failure);
-    });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNullableInt8u(success);
+        },
+        true);
 }
 
-- (void)readAttributeTrustedRootCertificatesWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeNullableInt16uWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPOperationalCredentialsTrustedRootCertificatesListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeTrustedRootCertificates(success, failure);
-        });
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNullableInt16u(success, failure);
+    });
 }
 
-- (void)readAttributeCurrentFabricIndexWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeNullableInt16uWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCurrentFabricIndex(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::NullableInt16u::TypeInfo;
+        TypeInfo::Type cppValue;
+        if (value == nil) {
+            cppValue.SetNull();
+        } else {
+            auto & nonNullValue_0 = cppValue.SetNonNull();
+            nonNullValue_0 = value.unsignedShortValue;
+        }
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNullableInt16uWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+        return self.cppCluster.SubscribeAttributeNullableInt16u(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
-
-@implementation CHIPPowerSource
+- (void)reportAttributeNullableInt16uWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNullableInt16u(success);
+        },
+        true);
+}
 
-- (chip::Controller::ClusterBase *)getCluster
+- (void)readAttributeNullableInt32uWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNullableInt32u(success, failure);
+    });
 }
 
-- (void)readAttributeStatusWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeNullableInt32uWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeStatus(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::NullableInt32u::TypeInfo;
+        TypeInfo::Type cppValue;
+        if (value == nil) {
+            cppValue.SetNull();
+        } else {
+            auto & nonNullValue_0 = cppValue.SetNonNull();
+            nonNullValue_0 = value.unsignedIntValue;
+        }
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeOrderWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNullableInt32uWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOrder(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeNullableInt32u(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeDescriptionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeNullableInt32uWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeDescription(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNullableInt32u(success);
+        },
+        true);
+}
+
+- (void)readAttributeNullableInt64uWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNullableInt64u(success, failure);
     });
 }
 
-- (void)readAttributeBatteryVoltageWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeNullableInt64uWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeBatteryVoltage(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::NullableInt64u::TypeInfo;
+        TypeInfo::Type cppValue;
+        if (value == nil) {
+            cppValue.SetNull();
+        } else {
+            auto & nonNullValue_0 = cppValue.SetNonNull();
+            nonNullValue_0 = value.unsignedLongLongValue;
+        }
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeBatteryPercentRemainingWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNullableInt64uWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeBatteryPercentRemaining(success, failure);
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeNullableInt64u(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeBatteryTimeRemainingWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeNullableInt64uWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeBatteryTimeRemaining(success, failure);
-    });
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNullableInt64u(success);
+        },
+        true);
 }
 
-- (void)readAttributeBatteryChargeLevelWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeNullableInt8sWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeBatteryChargeLevel(success, failure);
+    new CHIPInt8sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNullableInt8s(success, failure);
     });
 }
 
-- (void)readAttributeActiveBatteryFaultsWithResponseHandler:(ResponseHandler)responseHandler
-{
-    new CHIPPowerSourceActiveBatteryFaultsListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeActiveBatteryFaults(success, failure);
-        });
-}
-
-- (void)readAttributeBatteryChargeStateWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeNullableInt8sWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeBatteryChargeState(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::NullableInt8s::TypeInfo;
+        TypeInfo::Type cppValue;
+        if (value == nil) {
+            cppValue.SetNull();
+        } else {
+            auto & nonNullValue_0 = cppValue.SetNonNull();
+            nonNullValue_0 = value.charValue;
+        }
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNullableInt8sWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeFeatureMap(success, failure);
+    new CHIPInt8sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeNullableInt8s(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeNullableInt8sWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
-    });
+    new CHIPInt8sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNullableInt8s(success);
+        },
+        true);
 }
 
-@end
-
-@implementation CHIPPressureMeasurement
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)readAttributeNullableInt16sWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNullableInt16s(success, failure);
+    });
 }
 
-- (void)readAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeNullableInt16sWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMeasuredValue(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::NullableInt16s::TypeInfo;
+        TypeInfo::Type cppValue;
+        if (value == nil) {
+            cppValue.SetNull();
+        } else {
+            auto & nonNullValue_0 = cppValue.SetNonNull();
+            nonNullValue_0 = value.shortValue;
+        }
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)subscribeAttributeMeasuredValueWithMinInterval:(uint16_t)minInterval
-                                           maxInterval:(uint16_t)maxInterval
-                                       responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNullableInt16sWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeMeasuredValue(success, failure, minInterval, maxInterval);
+        return self.cppCluster.SubscribeAttributeNullableInt16s(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)reportAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeNullableInt16sWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16sAttributeCallbackBridge(
         self.callbackQueue, responseHandler,
         ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeMeasuredValue(success);
+            return self.cppCluster.ReportAttributeNullableInt16s(success);
         },
         true);
 }
 
-- (void)readAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeNullableInt32sWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMinMeasuredValue(success, failure);
+    new CHIPInt32sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNullableInt32s(success, failure);
     });
 }
 
-- (void)readAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeNullableInt32sWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMaxMeasuredValue(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::NullableInt32s::TypeInfo;
+        TypeInfo::Type cppValue;
+        if (value == nil) {
+            cppValue.SetNull();
+        } else {
+            auto & nonNullValue_0 = cppValue.SetNonNull();
+            nonNullValue_0 = value.intValue;
+        }
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNullableInt32sWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPInt32sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeNullableInt32s(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
-
-@implementation CHIPPumpConfigurationAndControl
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributeNullableInt32sWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt32sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNullableInt32s(success);
+        },
+        true);
 }
 
-- (void)readAttributeMaxPressureWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeNullableInt64sWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMaxPressure(success, failure);
+    new CHIPInt64sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNullableInt64s(success, failure);
     });
 }
 
-- (void)readAttributeMaxSpeedWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeNullableInt64sWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMaxSpeed(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::NullableInt64s::TypeInfo;
+        TypeInfo::Type cppValue;
+        if (value == nil) {
+            cppValue.SetNull();
+        } else {
+            auto & nonNullValue_0 = cppValue.SetNonNull();
+            nonNullValue_0 = value.longLongValue;
+        }
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeMaxFlowWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNullableInt64sWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMaxFlow(success, failure);
+    new CHIPInt64sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeNullableInt64s(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeMinConstPressureWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeNullableInt64sWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMinConstPressure(success, failure);
-    });
+    new CHIPInt64sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNullableInt64s(success);
+        },
+        true);
 }
 
-- (void)readAttributeMaxConstPressureWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeNullableEnum8WithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMaxConstPressure(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNullableEnum8(success, failure);
     });
 }
 
-- (void)readAttributeMinCompPressureWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeNullableEnum8WithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMinCompPressure(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::NullableEnum8::TypeInfo;
+        TypeInfo::Type cppValue;
+        if (value == nil) {
+            cppValue.SetNull();
+        } else {
+            auto & nonNullValue_0 = cppValue.SetNonNull();
+            nonNullValue_0 = static_cast<std::remove_reference_t<decltype(nonNullValue_0)>>(value.unsignedCharValue);
+        }
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeMaxCompPressureWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNullableEnum8WithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMaxCompPressure(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeNullableEnum8(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeMinConstSpeedWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeNullableEnum8WithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMinConstSpeed(success, failure);
-    });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNullableEnum8(success);
+        },
+        true);
 }
 
-- (void)readAttributeMaxConstSpeedWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeNullableEnum16WithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMaxConstSpeed(success, failure);
+        return self.cppCluster.ReadAttributeNullableEnum16(success, failure);
     });
 }
 
-- (void)readAttributeMinConstFlowWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeNullableEnum16WithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMinConstFlow(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::NullableEnum16::TypeInfo;
+        TypeInfo::Type cppValue;
+        if (value == nil) {
+            cppValue.SetNull();
+        } else {
+            auto & nonNullValue_0 = cppValue.SetNonNull();
+            nonNullValue_0 = static_cast<std::remove_reference_t<decltype(nonNullValue_0)>>(value.unsignedShortValue);
+        }
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeMaxConstFlowWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNullableEnum16WithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMaxConstFlow(success, failure);
+        return self.cppCluster.SubscribeAttributeNullableEnum16(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeMinConstTempWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeNullableEnum16WithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMinConstTemp(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNullableEnum16(success);
+        },
+        true);
 }
 
-- (void)readAttributeMaxConstTempWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeNullableOctetStringWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMaxConstTemp(success, failure);
+    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNullableOctetString(success, failure);
     });
 }
 
-- (void)readAttributePumpStatusWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeNullableOctetStringWithValue:(NSData * _Nullable)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePumpStatus(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::NullableOctetString::TypeInfo;
+        TypeInfo::Type cppValue;
+        if (value == nil) {
+            cppValue.SetNull();
+        } else {
+            auto & nonNullValue_0 = cppValue.SetNonNull();
+            nonNullValue_0 = [self asByteSpan:value];
+        }
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)subscribeAttributePumpStatusWithMinInterval:(uint16_t)minInterval
-                                        maxInterval:(uint16_t)maxInterval
-                                    responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNullableOctetStringWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributePumpStatus(success, failure, minInterval, maxInterval);
+    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeNullableOctetString(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)reportAttributePumpStatusWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeNullableOctetStringWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(
+    new CHIPOctetStringAttributeCallbackBridge(
         self.callbackQueue, responseHandler,
         ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributePumpStatus(success);
+            return self.cppCluster.ReportAttributeNullableOctetString(success);
         },
         true);
 }
 
-- (void)readAttributeEffectiveOperationModeWithResponseHandler:(ResponseHandler)responseHandler
-{
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeEffectiveOperationMode(success, failure);
-    });
-}
-
-- (void)readAttributeEffectiveControlModeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeNullableCharStringWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeEffectiveControlMode(success, failure);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNullableCharString(success, failure);
     });
 }
 
-- (void)readAttributeCapacityWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeNullableCharStringWithValue:(NSString * _Nullable)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCapacity(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = TestCluster::Attributes::NullableCharString::TypeInfo;
+        TypeInfo::Type cppValue;
+        if (value == nil) {
+            cppValue.SetNull();
+        } else {
+            auto & nonNullValue_0 = cppValue.SetNonNull();
+            nonNullValue_0 = [self asCharSpan:value];
+        }
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)subscribeAttributeCapacityWithMinInterval:(uint16_t)minInterval
-                                      maxInterval:(uint16_t)maxInterval
-                                  responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNullableCharStringWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeCapacity(success, failure, minInterval, maxInterval);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeNullableCharString(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)reportAttributeCapacityWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeNullableCharStringWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(
+    new CHIPCharStringAttributeCallbackBridge(
         self.callbackQueue, responseHandler,
         ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeCapacity(success);
+            return self.cppCluster.ReportAttributeNullableCharString(success);
         },
         true);
 }
 
-- (void)readAttributeSpeedWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeSpeed(success, failure);
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
     });
 }
 
-- (void)readAttributeLifetimeEnergyConsumedWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeLifetimeEnergyConsumed(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeOperationModeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOperationMode(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
 }
 
-- (void)writeAttributeOperationModeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+@end
+
+@implementation CHIPThermostat
+
+- (chip::Controller::ClusterBase *)getCluster
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = PumpConfigurationAndControl::Attributes::OperationMode::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+    return &_cppCluster;
+}
+
+- (void)clearWeeklySchedule:(CHIPThermostatClusterClearWeeklySchedulePayload * _Nonnull)payload
+            responseHandler:(ResponseHandler)responseHandler
+{
+    ListFreer listFreer;
+    Thermostat::Commands::ClearWeeklySchedule::Type request;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeControlModeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)getRelayStatusLog:(CHIPThermostatClusterGetRelayStatusLogPayload * _Nonnull)payload
+          responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeControlMode(success, failure);
+    ListFreer listFreer;
+    Thermostat::Commands::GetRelayStatusLog::Type request;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)writeAttributeControlModeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)getWeeklySchedule:(CHIPThermostatClusterGetWeeklySchedulePayload * _Nonnull)payload
+          responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = PumpConfigurationAndControl::Attributes::ControlMode::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+    ListFreer listFreer;
+    Thermostat::Commands::GetWeeklySchedule::Type request;
+    request.daysToReturn
+        = static_cast<std::remove_reference_t<decltype(request.daysToReturn)>>(payload.daysToReturn.unsignedCharValue);
+    request.modeToReturn
+        = static_cast<std::remove_reference_t<decltype(request.modeToReturn)>>(payload.modeToReturn.unsignedCharValue);
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeAlarmMaskWithResponseHandler:(ResponseHandler)responseHandler
+- (void)setWeeklySchedule:(CHIPThermostatClusterSetWeeklySchedulePayload * _Nonnull)payload
+          responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeAlarmMask(success, failure);
+    ListFreer listFreer;
+    Thermostat::Commands::SetWeeklySchedule::Type request;
+    request.numberOfTransitionsForSequence = payload.numberOfTransitionsForSequence.unsignedCharValue;
+    request.dayOfWeekForSequence = static_cast<std::remove_reference_t<decltype(request.dayOfWeekForSequence)>>(
+        payload.dayOfWeekForSequence.unsignedCharValue);
+    request.modeForSequence
+        = static_cast<std::remove_reference_t<decltype(request.modeForSequence)>>(payload.modeForSequence.unsignedCharValue);
+    {
+        using ListType = std::remove_reference_t<decltype(request.payload)>;
+        using ListMemberType = ListMemberTypeGetter<ListType>::Type;
+        if (payload.payload.count != 0) {
+            auto * listHolder_0 = new ListHolder<ListMemberType>(payload.payload.count);
+            if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
+                return;
+            }
+            listFreer.add(listHolder_0);
+            for (size_t i = 0; i < payload.payload.count; ++i) {
+                if (![payload.payload[i] isKindOfClass:[NSNumber class]]) {
+                    // Wrong kind of value.
+                    return;
+                }
+                auto element_0 = (NSNumber *) payload.payload[i];
+                listHolder_0->mList[i] = element_0.unsignedCharValue;
+            }
+            request.payload = ListType(listHolder_0->mList, payload.payload.count);
+        } else {
+            request.payload = ListType();
+        }
+    }
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler
+- (void)setpointRaiseLower:(CHIPThermostatClusterSetpointRaiseLowerPayload * _Nonnull)payload
+           responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeFeatureMap(success, failure);
+    ListFreer listFreer;
+    Thermostat::Commands::SetpointRaiseLower::Type request;
+    request.mode = static_cast<std::remove_reference_t<decltype(request.mode)>>(payload.mode.unsignedCharValue);
+    request.amount = payload.amount.charValue;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeLocalTemperatureWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeLocalTemperature(success, failure);
     });
 }
 
-@end
-
-@implementation CHIPRelativeHumidityMeasurement
+- (void)subscribeAttributeLocalTemperatureWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeLocalTemperature(success, failure, minInterval, maxInterval);
+    });
+}
 
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributeLocalTemperatureWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeLocalTemperature(success);
+        },
+        true);
 }
 
-- (void)readAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeAbsMinHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMeasuredValue(success, failure);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeAbsMinHeatSetpointLimit(success, failure);
     });
 }
 
-- (void)subscribeAttributeMeasuredValueWithMinInterval:(uint16_t)minInterval
-                                           maxInterval:(uint16_t)maxInterval
-                                       responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeAbsMinHeatSetpointLimitWithMinInterval:(uint16_t)minInterval
+                                                     maxInterval:(uint16_t)maxInterval
+                                                 responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeMeasuredValue(success, failure, minInterval, maxInterval);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeAbsMinHeatSetpointLimit(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)reportAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeAbsMinHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(
+    new CHIPInt16sAttributeCallbackBridge(
         self.callbackQueue, responseHandler,
         ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeMeasuredValue(success);
+            return self.cppCluster.ReportAttributeAbsMinHeatSetpointLimit(success);
         },
         true);
 }
 
-- (void)readAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeAbsMaxHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMinMeasuredValue(success, failure);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeAbsMaxHeatSetpointLimit(success, failure);
     });
 }
 
-- (void)readAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeAbsMaxHeatSetpointLimitWithMinInterval:(uint16_t)minInterval
+                                                     maxInterval:(uint16_t)maxInterval
+                                                 responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMaxMeasuredValue(success, failure);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeAbsMaxHeatSetpointLimit(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeAbsMaxHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTolerance(success, failure);
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeAbsMaxHeatSetpointLimit(success);
+        },
+        true);
+}
+
+- (void)readAttributeAbsMinCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeAbsMinCoolSetpointLimit(success, failure);
     });
 }
 
-- (void)subscribeAttributeToleranceWithMinInterval:(uint16_t)minInterval
-                                       maxInterval:(uint16_t)maxInterval
-                                   responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeAbsMinCoolSetpointLimitWithMinInterval:(uint16_t)minInterval
+                                                     maxInterval:(uint16_t)maxInterval
+                                                 responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeTolerance(success, failure, minInterval, maxInterval);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeAbsMinCoolSetpointLimit(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)reportAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeAbsMinCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(
+    new CHIPInt16sAttributeCallbackBridge(
         self.callbackQueue, responseHandler,
         ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeTolerance(success);
+            return self.cppCluster.ReportAttributeAbsMinCoolSetpointLimit(success);
         },
         true);
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeAbsMaxCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeAbsMaxCoolSetpointLimit(success, failure);
     });
 }
 
-@end
-
-@implementation CHIPScenes
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)subscribeAttributeAbsMaxCoolSetpointLimitWithMinInterval:(uint16_t)minInterval
+                                                     maxInterval:(uint16_t)maxInterval
+                                                 responseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeAbsMaxCoolSetpointLimit(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)addScene:(CHIPScenesClusterAddScenePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeAbsMaxCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Scenes::Commands::AddScene::Type request;
-    request.groupId = payload.groupId.unsignedShortValue;
-    request.sceneId = payload.sceneId.unsignedCharValue;
-    request.transitionTime = payload.transitionTime.unsignedShortValue;
-    request.sceneName = [self asCharSpan:payload.sceneName];
-    {
-        using ListType = std::remove_reference_t<decltype(request.extensionFieldSets)>;
-        using ListMemberType = ListMemberTypeGetter<ListType>::Type;
-        if (payload.extensionFieldSets.count != 0) {
-            auto * listHolder_0 = new ListHolder<ListMemberType>(payload.extensionFieldSets.count);
-            if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
-                return;
-            }
-            listFreer.add(listHolder_0);
-            for (size_t i = 0; i < payload.extensionFieldSets.count; ++i) {
-                if (![payload.extensionFieldSets[i] isKindOfClass:[CHIPScenesClusterSceneExtensionFieldSet class]]) {
-                    // Wrong kind of value.
-                    return;
-                }
-                auto element_0 = (CHIPScenesClusterSceneExtensionFieldSet *) payload.extensionFieldSets[i];
-                listHolder_0->mList[i].clusterId = element_0.clusterId.unsignedIntValue;
-                listHolder_0->mList[i].length = element_0.length.unsignedCharValue;
-                listHolder_0->mList[i].value = element_0.value.unsignedCharValue;
-            }
-            request.extensionFieldSets = ListType(listHolder_0->mList, payload.extensionFieldSets.count);
-        } else {
-            request.extensionFieldSets = ListType();
-        }
-    }
-
-    new CHIPScenesClusterAddSceneResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPScenesClusterAddSceneResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeAbsMaxCoolSetpointLimit(success);
+        },
+        true);
 }
 
-- (void)getSceneMembership:(CHIPScenesClusterGetSceneMembershipPayload * _Nonnull)payload
-           responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeOccupiedCoolingSetpointWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Scenes::Commands::GetSceneMembership::Type request;
-    request.groupId = payload.groupId.unsignedShortValue;
-
-    new CHIPScenesClusterGetSceneMembershipResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPScenesClusterGetSceneMembershipResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOccupiedCoolingSetpoint(success, failure);
+    });
 }
 
-- (void)recallScene:(CHIPScenesClusterRecallScenePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeOccupiedCoolingSetpointWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Scenes::Commands::RecallScene::Type request;
-    request.groupId = payload.groupId.unsignedShortValue;
-    request.sceneId = payload.sceneId.unsignedCharValue;
-    request.transitionTime = payload.transitionTime.unsignedShortValue;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = Thermostat::Attributes::OccupiedCoolingSetpoint::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.shortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)removeAllScenes:(CHIPScenesClusterRemoveAllScenesPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeOccupiedCoolingSetpointWithMinInterval:(uint16_t)minInterval
+                                                     maxInterval:(uint16_t)maxInterval
+                                                 responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Scenes::Commands::RemoveAllScenes::Type request;
-    request.groupId = payload.groupId.unsignedShortValue;
-
-    new CHIPScenesClusterRemoveAllScenesResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPScenesClusterRemoveAllScenesResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOccupiedCoolingSetpoint(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)removeScene:(CHIPScenesClusterRemoveScenePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeOccupiedCoolingSetpointWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Scenes::Commands::RemoveScene::Type request;
-    request.groupId = payload.groupId.unsignedShortValue;
-    request.sceneId = payload.sceneId.unsignedCharValue;
-
-    new CHIPScenesClusterRemoveSceneResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPScenesClusterRemoveSceneResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOccupiedCoolingSetpoint(success);
+        },
+        true);
 }
 
-- (void)storeScene:(CHIPScenesClusterStoreScenePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeOccupiedHeatingSetpointWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Scenes::Commands::StoreScene::Type request;
-    request.groupId = payload.groupId.unsignedShortValue;
-    request.sceneId = payload.sceneId.unsignedCharValue;
-
-    new CHIPScenesClusterStoreSceneResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPScenesClusterStoreSceneResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOccupiedHeatingSetpoint(success, failure);
+    });
 }
 
-- (void)viewScene:(CHIPScenesClusterViewScenePayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeOccupiedHeatingSetpointWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Scenes::Commands::ViewScene::Type request;
-    request.groupId = payload.groupId.unsignedShortValue;
-    request.sceneId = payload.sceneId.unsignedCharValue;
-
-    new CHIPScenesClusterViewSceneResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPScenesClusterViewSceneResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = Thermostat::Attributes::OccupiedHeatingSetpoint::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.shortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
 }
 
-- (void)readAttributeSceneCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeOccupiedHeatingSetpointWithMinInterval:(uint16_t)minInterval
+                                                     maxInterval:(uint16_t)maxInterval
+                                                 responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeSceneCount(success, failure);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOccupiedHeatingSetpoint(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeCurrentSceneWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeOccupiedHeatingSetpointWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCurrentScene(success, failure);
-    });
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOccupiedHeatingSetpoint(success);
+        },
+        true);
 }
 
-- (void)readAttributeCurrentGroupWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeMinHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCurrentGroup(success, failure);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMinHeatSetpointLimit(success, failure);
     });
 }
 
-- (void)readAttributeSceneValidWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeMinHeatSetpointLimitWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeSceneValid(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = Thermostat::Attributes::MinHeatSetpointLimit::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.shortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeNameSupportWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeMinHeatSetpointLimitWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNameSupport(success, failure);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMinHeatSetpointLimit(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeMinHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
-    });
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMinHeatSetpointLimit(success);
+        },
+        true);
 }
 
-@end
-
-@implementation CHIPSoftwareDiagnostics
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)readAttributeMaxHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMaxHeatSetpointLimit(success, failure);
+    });
 }
 
-- (void)resetWatermarks:(CHIPSoftwareDiagnosticsClusterResetWatermarksPayload * _Nonnull)payload
-        responseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeMaxHeatSetpointLimitWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    SoftwareDiagnostics::Commands::ResetWatermarks::Type request;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = Thermostat::Attributes::MaxHeatSetpointLimit::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.shortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeThreadMetricsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeMaxHeatSetpointLimitWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPSoftwareDiagnosticsThreadMetricsListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeThreadMetrics(success, failure);
-        });
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMaxHeatSetpointLimit(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)readAttributeCurrentHeapFreeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeMaxHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCurrentHeapFree(success, failure);
-    });
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMaxHeatSetpointLimit(success);
+        },
+        true);
 }
 
-- (void)readAttributeCurrentHeapUsedWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeMinCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCurrentHeapUsed(success, failure);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMinCoolSetpointLimit(success, failure);
     });
 }
 
-- (void)readAttributeCurrentHeapHighWatermarkWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeMinCoolSetpointLimitWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCurrentHeapHighWatermark(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = Thermostat::Attributes::MinCoolSetpointLimit::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.shortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeMinCoolSetpointLimitWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMinCoolSetpointLimit(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
-
-@implementation CHIPSwitch
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributeMinCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt16sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMinCoolSetpointLimit(success);
+        },
+        true);
 }
 
-- (void)readAttributeNumberOfPositionsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeMaxCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNumberOfPositions(success, failure);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMaxCoolSetpointLimit(success, failure);
     });
 }
 
-- (void)readAttributeCurrentPositionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeMaxCoolSetpointLimitWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCurrentPosition(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = Thermostat::Attributes::MaxCoolSetpointLimit::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.shortValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)subscribeAttributeCurrentPositionWithMinInterval:(uint16_t)minInterval
-                                             maxInterval:(uint16_t)maxInterval
-                                         responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeMaxCoolSetpointLimitWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeCurrentPosition(success, failure, minInterval, maxInterval);
+    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMaxCoolSetpointLimit(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)reportAttributeCurrentPositionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeMaxCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(
+    new CHIPInt16sAttributeCallbackBridge(
         self.callbackQueue, responseHandler,
         ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeCurrentPosition(success);
+            return self.cppCluster.ReportAttributeMaxCoolSetpointLimit(success);
         },
         true);
 }
 
-- (void)readAttributeMultiPressMaxWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeMinSetpointDeadBandWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMultiPressMax(success, failure);
+    new CHIPInt8sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMinSetpointDeadBand(success, failure);
     });
 }
 
-- (void)readAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeMinSetpointDeadBandWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeFeatureMap(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = Thermostat::Attributes::MinSetpointDeadBand::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = value.charValue;
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeMinSetpointDeadBandWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPInt8sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMinSetpointDeadBand(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
-
-@implementation CHIPTvChannel
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributeMinSetpointDeadBandWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt8sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMinSetpointDeadBand(success);
+        },
+        true);
 }
 
-- (void)changeChannel:(CHIPTvChannelClusterChangeChannelPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeControlSequenceOfOperationWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    TvChannel::Commands::ChangeChannel::Type request;
-    request.match = [self asCharSpan:payload.match];
-
-    new CHIPTvChannelClusterChangeChannelResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPTvChannelClusterChangeChannelResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeControlSequenceOfOperation(success, failure);
+    });
 }
 
-- (void)changeChannelByNumber:(CHIPTvChannelClusterChangeChannelByNumberPayload * _Nonnull)payload
-              responseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeControlSequenceOfOperationWithValue:(NSNumber * _Nonnull)value
+                                          responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    TvChannel::Commands::ChangeChannelByNumber::Type request;
-    request.majorNumber = payload.majorNumber.unsignedShortValue;
-    request.minorNumber = payload.minorNumber.unsignedShortValue;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = Thermostat::Attributes::ControlSequenceOfOperation::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)skipChannel:(CHIPTvChannelClusterSkipChannelPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeControlSequenceOfOperationWithMinInterval:(uint16_t)minInterval
+                                                        maxInterval:(uint16_t)maxInterval
+                                                    responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    TvChannel::Commands::SkipChannel::Type request;
-    request.count = payload.count.unsignedShortValue;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeControlSequenceOfOperation(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeTvChannelListWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeControlSequenceOfOperationWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPTvChannelTvChannelListListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeTvChannelList(success, failure);
-        });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeControlSequenceOfOperation(success);
+        },
+        true);
 }
 
-- (void)readAttributeTvChannelLineupWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeSystemModeWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTvChannelLineup(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeSystemMode(success, failure);
     });
 }
 
-- (void)readAttributeCurrentTvChannelWithResponseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeSystemModeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCurrentTvChannel(success, failure);
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = Thermostat::Attributes::SystemMode::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeSystemModeWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeSystemMode(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
-
-@implementation CHIPTargetNavigator
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributeSystemModeWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeSystemMode(success);
+        },
+        true);
 }
 
-- (void)navigateTarget:(CHIPTargetNavigatorClusterNavigateTargetPayload * _Nonnull)payload
-       responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeStartOfWeekWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    TargetNavigator::Commands::NavigateTarget::Type request;
-    request.target = payload.target.unsignedCharValue;
-    request.data = [self asCharSpan:payload.data];
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeStartOfWeek(success, failure);
+    });
+}
 
-    new CHIPTargetNavigatorClusterNavigateTargetResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPTargetNavigatorClusterNavigateTargetResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)subscribeAttributeStartOfWeekWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeStartOfWeek(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)readAttributeTargetNavigatorListWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeStartOfWeekWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPTargetNavigatorTargetNavigatorListListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeTargetNavigatorList(success, failure);
-        });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeStartOfWeek(success);
+        },
+        true);
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeNumberOfWeeklyTransitionsWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNumberOfWeeklyTransitions(success, failure);
     });
 }
 
-@end
-
-@implementation CHIPTemperatureMeasurement
+- (void)subscribeAttributeNumberOfWeeklyTransitionsWithMinInterval:(uint16_t)minInterval
+                                                       maxInterval:(uint16_t)maxInterval
+                                                   responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeNumberOfWeeklyTransitions(success, failure, minInterval, maxInterval);
+    });
+}
 
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributeNumberOfWeeklyTransitionsWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNumberOfWeeklyTransitions(success);
+        },
+        true);
 }
 
-- (void)readAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeNumberOfDailyTransitionsWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMeasuredValue(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNumberOfDailyTransitions(success, failure);
     });
 }
 
-- (void)subscribeAttributeMeasuredValueWithMinInterval:(uint16_t)minInterval
-                                           maxInterval:(uint16_t)maxInterval
-                                       responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNumberOfDailyTransitionsWithMinInterval:(uint16_t)minInterval
+                                                      maxInterval:(uint16_t)maxInterval
+                                                  responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeMeasuredValue(success, failure, minInterval, maxInterval);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeNumberOfDailyTransitions(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)reportAttributeMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeNumberOfDailyTransitionsWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(
+    new CHIPInt8uAttributeCallbackBridge(
         self.callbackQueue, responseHandler,
         ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeMeasuredValue(success);
+            return self.cppCluster.ReportAttributeNumberOfDailyTransitions(success);
         },
         true);
 }
 
-- (void)readAttributeMinMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMinMeasuredValue(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeFeatureMap(success, failure);
     });
 }
 
-- (void)readAttributeMaxMeasuredValueWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeFeatureMapWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMaxMeasuredValue(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeFeatureMap(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeFeatureMap(success);
+        },
+        true);
+}
+
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTolerance(success, failure);
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
     });
 }
 
-- (void)subscribeAttributeToleranceWithMinInterval:(uint16_t)minInterval
-                                       maxInterval:(uint16_t)maxInterval
-                                   responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeTolerance(success, failure, minInterval, maxInterval);
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)reportAttributeToleranceWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(
         self.callbackQueue, responseHandler,
         ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeTolerance(success);
+            return self.cppCluster.ReportAttributeClusterRevision(success);
         },
         true);
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
-{
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
-    });
-}
-
 @end
 
-@implementation CHIPTestCluster
+@implementation CHIPThermostatUserInterfaceConfiguration
 
 - (chip::Controller::ClusterBase *)getCluster
 {
     return &_cppCluster;
 }
 
-- (void)test:(CHIPTestClusterClusterTestPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeTemperatureDisplayModeWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    TestCluster::Commands::Test::Type request;
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTemperatureDisplayMode(success, failure);
+    });
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+- (void)writeAttributeTemperatureDisplayModeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = ThermostatUserInterfaceConfiguration::Attributes::TemperatureDisplayMode::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)testAddArguments:(CHIPTestClusterClusterTestAddArgumentsPayload * _Nonnull)payload
-         responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTemperatureDisplayModeWithMinInterval:(uint16_t)minInterval
+                                                    maxInterval:(uint16_t)maxInterval
+                                                responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    TestCluster::Commands::TestAddArguments::Type request;
-    request.arg1 = payload.arg1.unsignedCharValue;
-    request.arg2 = payload.arg2.unsignedCharValue;
-
-    new CHIPTestClusterClusterTestAddArgumentsResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPTestClusterClusterTestAddArgumentsResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTemperatureDisplayMode(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)testEnumsRequest:(CHIPTestClusterClusterTestEnumsRequestPayload * _Nonnull)payload
-         responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeTemperatureDisplayModeWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    TestCluster::Commands::TestEnumsRequest::Type request;
-    request.arg1 = static_cast<std::remove_reference_t<decltype(request.arg1)>>(payload.arg1.unsignedShortValue);
-    request.arg2 = static_cast<std::remove_reference_t<decltype(request.arg2)>>(payload.arg2.unsignedCharValue);
-
-    new CHIPTestClusterClusterTestEnumsResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPTestClusterClusterTestEnumsResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTemperatureDisplayMode(success);
+        },
+        true);
 }
 
-- (void)testListInt8UArgumentRequest:(CHIPTestClusterClusterTestListInt8UArgumentRequestPayload * _Nonnull)payload
-                     responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeKeypadLockoutWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    TestCluster::Commands::TestListInt8UArgumentRequest::Type request;
-    {
-        using ListType = std::remove_reference_t<decltype(request.arg1)>;
-        using ListMemberType = ListMemberTypeGetter<ListType>::Type;
-        if (payload.arg1.count != 0) {
-            auto * listHolder_0 = new ListHolder<ListMemberType>(payload.arg1.count);
-            if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
-                return;
-            }
-            listFreer.add(listHolder_0);
-            for (size_t i = 0; i < payload.arg1.count; ++i) {
-                if (![payload.arg1[i] isKindOfClass:[NSNumber class]]) {
-                    // Wrong kind of value.
-                    return;
-                }
-                auto element_0 = (NSNumber *) payload.arg1[i];
-                listHolder_0->mList[i] = element_0.unsignedCharValue;
-            }
-            request.arg1 = ListType(listHolder_0->mList, payload.arg1.count);
-        } else {
-            request.arg1 = ListType();
-        }
-    }
-
-    new CHIPTestClusterClusterBooleanResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPTestClusterClusterBooleanResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeKeypadLockout(success, failure);
+    });
 }
 
-- (void)testListInt8UReverseRequest:(CHIPTestClusterClusterTestListInt8UReverseRequestPayload * _Nonnull)payload
-                    responseHandler:(ResponseHandler)responseHandler
+- (void)writeAttributeKeypadLockoutWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    TestCluster::Commands::TestListInt8UReverseRequest::Type request;
-    {
-        using ListType = std::remove_reference_t<decltype(request.arg1)>;
-        using ListMemberType = ListMemberTypeGetter<ListType>::Type;
-        if (payload.arg1.count != 0) {
-            auto * listHolder_0 = new ListHolder<ListMemberType>(payload.arg1.count);
-            if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
-                return;
-            }
-            listFreer.add(listHolder_0);
-            for (size_t i = 0; i < payload.arg1.count; ++i) {
-                if (![payload.arg1[i] isKindOfClass:[NSNumber class]]) {
-                    // Wrong kind of value.
-                    return;
-                }
-                auto element_0 = (NSNumber *) payload.arg1[i];
-                listHolder_0->mList[i] = element_0.unsignedCharValue;
-            }
-            request.arg1 = ListType(listHolder_0->mList, payload.arg1.count);
-        } else {
-            request.arg1 = ListType();
-        }
-    }
-
-    new CHIPTestClusterClusterTestListInt8UReverseResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPTestClusterClusterTestListInt8UReverseResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = ThermostatUserInterfaceConfiguration::Attributes::KeypadLockout::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    });
 }
 
-- (void)testListStructArgumentRequest:(CHIPTestClusterClusterTestListStructArgumentRequestPayload * _Nonnull)payload
-                      responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeKeypadLockoutWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    TestCluster::Commands::TestListStructArgumentRequest::Type request;
-    {
-        using ListType = std::remove_reference_t<decltype(request.arg1)>;
-        using ListMemberType = ListMemberTypeGetter<ListType>::Type;
-        if (payload.arg1.count != 0) {
-            auto * listHolder_0 = new ListHolder<ListMemberType>(payload.arg1.count);
-            if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
-                return;
-            }
-            listFreer.add(listHolder_0);
-            for (size_t i = 0; i < payload.arg1.count; ++i) {
-                if (![payload.arg1[i] isKindOfClass:[CHIPTestClusterClusterSimpleStruct class]]) {
-                    // Wrong kind of value.
-                    return;
-                }
-                auto element_0 = (CHIPTestClusterClusterSimpleStruct *) payload.arg1[i];
-                listHolder_0->mList[i].a = element_0.a.unsignedCharValue;
-                listHolder_0->mList[i].b = element_0.b.boolValue;
-                listHolder_0->mList[i].c
-                    = static_cast<std::remove_reference_t<decltype(listHolder_0->mList[i].c)>>(element_0.c.unsignedCharValue);
-                listHolder_0->mList[i].d = [self asByteSpan:element_0.d];
-                listHolder_0->mList[i].e = [self asCharSpan:element_0.e];
-                listHolder_0->mList[i].f
-                    = static_cast<std::remove_reference_t<decltype(listHolder_0->mList[i].f)>>(element_0.f.unsignedCharValue);
-            }
-            request.arg1 = ListType(listHolder_0->mList, payload.arg1.count);
-        } else {
-            request.arg1 = ListType();
-        }
-    }
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeKeypadLockout(success, failure, minInterval, maxInterval);
+    });
+}
 
-    new CHIPTestClusterClusterBooleanResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPTestClusterClusterBooleanResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)reportAttributeKeypadLockoutWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeKeypadLockout(success);
+        },
+        true);
 }
 
-- (void)testNotHandled:(CHIPTestClusterClusterTestNotHandledPayload * _Nonnull)payload
-       responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeScheduleProgrammingVisibilityWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    TestCluster::Commands::TestNotHandled::Type request;
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeScheduleProgrammingVisibility(success, failure);
+    });
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+- (void)writeAttributeScheduleProgrammingVisibilityWithValue:(NSNumber * _Nonnull)value
+                                             responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        ListFreer listFreer;
+        using TypeInfo = ThermostatUserInterfaceConfiguration::Attributes::ScheduleProgrammingVisibility::TypeInfo;
+        TypeInfo::Type cppValue;
+        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
+        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
         auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)testNullableOptionalRequest:(CHIPTestClusterClusterTestNullableOptionalRequestPayload * _Nonnull)payload
-                    responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeScheduleProgrammingVisibilityWithMinInterval:(uint16_t)minInterval
+                                                           maxInterval:(uint16_t)maxInterval
+                                                       responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    TestCluster::Commands::TestNullableOptionalRequest::Type request;
-    if (payload.arg1 != nil) {
-        auto & definedValue_0 = request.arg1.Emplace();
-        if (payload.arg1 == nil) {
-            definedValue_0.SetNull();
-        } else {
-            auto & nonNullValue_1 = definedValue_0.SetNonNull();
-            nonNullValue_1 = payload.arg1.unsignedCharValue;
-        }
-    }
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeScheduleProgrammingVisibility(success, failure, minInterval, maxInterval);
+    });
+}
 
-    new CHIPTestClusterClusterTestNullableOptionalResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPTestClusterClusterTestNullableOptionalResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)reportAttributeScheduleProgrammingVisibilityWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeScheduleProgrammingVisibility(success);
+        },
+        true);
 }
 
-- (void)testSpecific:(CHIPTestClusterClusterTestSpecificPayload * _Nonnull)payload responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    TestCluster::Commands::TestSpecific::Type request;
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    });
+}
 
-    new CHIPTestClusterClusterTestSpecificResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPTestClusterClusterTestSpecificResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)testStructArgumentRequest:(CHIPTestClusterClusterTestStructArgumentRequestPayload * _Nonnull)payload
-                  responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    TestCluster::Commands::TestStructArgumentRequest::Type request;
-    request.arg1.a = payload.arg1.a.unsignedCharValue;
-    request.arg1.b = payload.arg1.b.boolValue;
-    request.arg1.c = static_cast<std::remove_reference_t<decltype(request.arg1.c)>>(payload.arg1.c.unsignedCharValue);
-    request.arg1.d = [self asByteSpan:payload.arg1.d];
-    request.arg1.e = [self asCharSpan:payload.arg1.e];
-    request.arg1.f = static_cast<std::remove_reference_t<decltype(request.arg1.f)>>(payload.arg1.f.unsignedCharValue);
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
 
-    new CHIPTestClusterClusterBooleanResponseCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            auto successFn = Callback<CHIPTestClusterClusterBooleanResponseCallbackType>::FromCancelable(success);
-            auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-            return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-        });
+@end
+
+@implementation CHIPThreadNetworkDiagnostics
+
+- (chip::Controller::ClusterBase *)getCluster
+{
+    return &_cppCluster;
 }
 
-- (void)testUnknownCommand:(CHIPTestClusterClusterTestUnknownCommandPayload * _Nonnull)payload
-           responseHandler:(ResponseHandler)responseHandler
+- (void)resetCounts:(CHIPThreadNetworkDiagnosticsClusterResetCountsPayload * _Nonnull)payload
+    responseHandler:(ResponseHandler)responseHandler
 {
     ListFreer listFreer;
-    TestCluster::Commands::TestUnknownCommand::Type request;
+    ThreadNetworkDiagnostics::Commands::ResetCounts::Type request;
 
     new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
         auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
@@ -6172,2098 +13755,2001 @@ new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
-- (void)readAttributeBooleanWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeChannelWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeBoolean(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeChannel(success, failure);
     });
 }
 
-- (void)writeAttributeBooleanWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeChannelWithMinInterval:(uint16_t)minInterval
+                                     maxInterval:(uint16_t)maxInterval
+                                 responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::Boolean::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.boolValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeChannel(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeBitmap8WithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeChannelWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeChannel(success);
+        },
+        true);
+}
+
+- (void)readAttributeRoutingRoleWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeBitmap8(success, failure);
+        return self.cppCluster.ReadAttributeRoutingRole(success, failure);
     });
 }
 
-- (void)writeAttributeBitmap8WithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRoutingRoleWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::Bitmap8::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedCharValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRoutingRole(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeBitmap16WithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRoutingRoleWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeBitmap16(success, failure);
-    });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRoutingRole(success);
+        },
+        true);
 }
 
-- (void)writeAttributeBitmap16WithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeNetworkNameWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::Bitmap16::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedShortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeNetworkName(success, failure);
     });
 }
 
-- (void)readAttributeBitmap32WithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeNetworkNameWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeBitmap32(success, failure);
+    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeNetworkName(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeBitmap32WithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeNetworkNameWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::Bitmap32::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedIntValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPOctetStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeNetworkName(success);
+        },
+        true);
 }
 
-- (void)readAttributeBitmap64WithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePanIdWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeBitmap64(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePanId(success, failure);
     });
 }
 
-- (void)writeAttributeBitmap64WithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePanIdWithMinInterval:(uint16_t)minInterval
+                                   maxInterval:(uint16_t)maxInterval
+                               responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::Bitmap64::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedLongLongValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePanId(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeInt8uWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePanIdWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeInt8u(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePanId(success);
+        },
+        true);
 }
 
-- (void)writeAttributeInt8uWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeExtendedPanIdWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::Int8u::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedCharValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeExtendedPanId(success, failure);
     });
 }
 
-- (void)readAttributeInt16uWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeExtendedPanIdWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeInt16u(success, failure);
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeExtendedPanId(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeInt16uWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeExtendedPanIdWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::Int16u::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedShortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeExtendedPanId(success);
+        },
+        true);
 }
 
-- (void)readAttributeInt32uWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeMeshLocalPrefixWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeInt32u(success, failure);
+    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeMeshLocalPrefix(success, failure);
     });
 }
 
-- (void)writeAttributeInt32uWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeMeshLocalPrefixWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::Int32u::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedIntValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMeshLocalPrefix(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeInt64uWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeMeshLocalPrefixWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeInt64u(success, failure);
-    });
+    new CHIPOctetStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMeshLocalPrefix(success);
+        },
+        true);
 }
 
-- (void)writeAttributeInt64uWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeOverrunCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::Int64u::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedLongLongValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeOverrunCount(success, failure);
     });
 }
 
-- (void)readAttributeInt8sWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeOverrunCountWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeInt8s(success, failure);
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeOverrunCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeInt8sWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeOverrunCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::Int8s::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.charValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOverrunCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeInt16sWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeNeighborTableListWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeInt16s(success, failure);
-    });
+    new CHIPThreadNetworkDiagnosticsNeighborTableListListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeNeighborTableList(success, failure);
+        });
 }
 
-- (void)writeAttributeInt16sWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRouteTableListWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::Int16s::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.shortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPThreadNetworkDiagnosticsRouteTableListListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeRouteTableList(success, failure);
+        });
 }
 
-- (void)readAttributeInt32sWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePartitionIdWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeInt32s(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePartitionId(success, failure);
     });
 }
 
-- (void)writeAttributeInt32sWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePartitionIdWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::Int32s::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.intValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePartitionId(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeInt64sWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePartitionIdWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeInt64s(success, failure);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePartitionId(success);
+        },
+        true);
 }
 
-- (void)writeAttributeInt64sWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeWeightingWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::Int64s::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.longLongValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeWeighting(success, failure);
     });
 }
 
-- (void)readAttributeEnum8WithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeWeightingWithMinInterval:(uint16_t)minInterval
+                                       maxInterval:(uint16_t)maxInterval
+                                   responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeEnum8(success, failure);
+        return self.cppCluster.SubscribeAttributeWeighting(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeEnum8WithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeWeightingWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::Enum8::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeWeighting(success);
+        },
+        true);
 }
 
-- (void)readAttributeEnum16WithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeDataVersionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeEnum16(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeDataVersion(success, failure);
     });
 }
 
-- (void)writeAttributeEnum16WithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeDataVersionWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::Enum16::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedShortValue);
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeDataVersion(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeOctetStringWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeDataVersionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOctetString(success, failure);
-    });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeDataVersion(success);
+        },
+        true);
 }
 
-- (void)writeAttributeOctetStringWithValue:(NSData * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeStableDataVersionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::OctetString::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = [self asByteSpan:value];
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeStableDataVersion(success, failure);
     });
 }
 
-- (void)readAttributeListInt8uWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeStableDataVersionWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPTestClusterListInt8uListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeListInt8u(success, failure);
-        });
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeStableDataVersion(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)writeAttributeListInt8uWithValue:(NSArray * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeStableDataVersionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::ListInt8u::TypeInfo;
-        TypeInfo::Type cppValue;
-        {
-            using ListType = std::remove_reference_t<decltype(cppValue)>;
-            using ListMemberType = ListMemberTypeGetter<ListType>::Type;
-            if (value.count != 0) {
-                auto * listHolder_0 = new ListHolder<ListMemberType>(value.count);
-                if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
-                    return CHIP_ERROR_INVALID_ARGUMENT;
-                }
-                listFreer.add(listHolder_0);
-                for (size_t i = 0; i < value.count; ++i) {
-                    if (![value[i] isKindOfClass:[NSNumber class]]) {
-                        // Wrong kind of value.
-                        return CHIP_ERROR_INVALID_ARGUMENT;
-                    }
-                    auto element_0 = (NSNumber *) value[i];
-                    listHolder_0->mList[i] = element_0.unsignedCharValue;
-                }
-                cppValue = ListType(listHolder_0->mList, value.count);
-            } else {
-                cppValue = ListType();
-            }
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeStableDataVersion(success);
+        },
+        true);
 }
 
-- (void)readAttributeListOctetStringWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeLeaderRouterIdWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPTestClusterListOctetStringListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeListOctetString(success, failure);
-        });
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeLeaderRouterId(success, failure);
+    });
 }
 
-- (void)writeAttributeListOctetStringWithValue:(NSArray * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeLeaderRouterIdWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::ListOctetString::TypeInfo;
-        TypeInfo::Type cppValue;
-        {
-            using ListType = std::remove_reference_t<decltype(cppValue)>;
-            using ListMemberType = ListMemberTypeGetter<ListType>::Type;
-            if (value.count != 0) {
-                auto * listHolder_0 = new ListHolder<ListMemberType>(value.count);
-                if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
-                    return CHIP_ERROR_INVALID_ARGUMENT;
-                }
-                listFreer.add(listHolder_0);
-                for (size_t i = 0; i < value.count; ++i) {
-                    if (![value[i] isKindOfClass:[NSData class]]) {
-                        // Wrong kind of value.
-                        return CHIP_ERROR_INVALID_ARGUMENT;
-                    }
-                    auto element_0 = (NSData *) value[i];
-                    listHolder_0->mList[i] = [self asByteSpan:element_0];
-                }
-                cppValue = ListType(listHolder_0->mList, value.count);
-            } else {
-                cppValue = ListType();
-            }
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeLeaderRouterId(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeListStructOctetStringWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeLeaderRouterIdWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPTestClusterListStructOctetStringListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeListStructOctetString(success, failure);
-        });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeLeaderRouterId(success);
+        },
+        true);
 }
 
-- (void)writeAttributeListStructOctetStringWithValue:(NSArray * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeDetachedRoleCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::ListStructOctetString::TypeInfo;
-        TypeInfo::Type cppValue;
-        {
-            using ListType = std::remove_reference_t<decltype(cppValue)>;
-            using ListMemberType = ListMemberTypeGetter<ListType>::Type;
-            if (value.count != 0) {
-                auto * listHolder_0 = new ListHolder<ListMemberType>(value.count);
-                if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
-                    return CHIP_ERROR_INVALID_ARGUMENT;
-                }
-                listFreer.add(listHolder_0);
-                for (size_t i = 0; i < value.count; ++i) {
-                    if (![value[i] isKindOfClass:[CHIPTestClusterClusterTestListStructOctet class]]) {
-                        // Wrong kind of value.
-                        return CHIP_ERROR_INVALID_ARGUMENT;
-                    }
-                    auto element_0 = (CHIPTestClusterClusterTestListStructOctet *) value[i];
-                    listHolder_0->mList[i].fabricIndex = element_0.fabricIndex.unsignedLongLongValue;
-                    listHolder_0->mList[i].operationalCert = [self asByteSpan:element_0.operationalCert];
-                }
-                cppValue = ListType(listHolder_0->mList, value.count);
-            } else {
-                cppValue = ListType();
-            }
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeDetachedRoleCount(success, failure);
     });
 }
 
-- (void)readAttributeLongOctetStringWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeDetachedRoleCountWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeLongOctetString(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeDetachedRoleCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeLongOctetStringWithValue:(NSData * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeDetachedRoleCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeDetachedRoleCount(success);
+        },
+        true);
+}
+
+- (void)readAttributeChildRoleCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::LongOctetString::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = [self asByteSpan:value];
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeChildRoleCount(success, failure);
     });
 }
 
-- (void)readAttributeCharStringWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeChildRoleCountWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCharString(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeChildRoleCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeCharStringWithValue:(NSString * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeChildRoleCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::CharString::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = [self asCharSpan:value];
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeChildRoleCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeLongCharStringWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRouterRoleCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeLongCharString(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRouterRoleCount(success, failure);
     });
 }
 
-- (void)writeAttributeLongCharStringWithValue:(NSString * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRouterRoleCountWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::LongCharString::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = [self asCharSpan:value];
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRouterRoleCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeEpochUsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRouterRoleCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeEpochUs(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRouterRoleCount(success);
+        },
+        true);
 }
 
-- (void)writeAttributeEpochUsWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeLeaderRoleCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::EpochUs::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedLongLongValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeLeaderRoleCount(success, failure);
     });
 }
 
-- (void)readAttributeEpochSWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeLeaderRoleCountWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeEpochS(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeLeaderRoleCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeEpochSWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeLeaderRoleCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::EpochS::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.unsignedIntValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeLeaderRoleCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeVendorIdWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeAttachAttemptCountWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeVendorId(success, failure);
+        return self.cppCluster.ReadAttributeAttachAttemptCount(success, failure);
     });
 }
 
-- (void)writeAttributeVendorIdWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeAttachAttemptCountWithMinInterval:(uint16_t)minInterval
+                                                maxInterval:(uint16_t)maxInterval
+                                            responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::VendorId::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedShortValue);
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeAttachAttemptCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeListNullablesAndOptionalsStructWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeAttachAttemptCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPTestClusterListNullablesAndOptionalsStructListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeListNullablesAndOptionalsStruct(success, failure);
-        });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeAttachAttemptCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeUnsupportedWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePartitionIdChangeCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeUnsupported(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePartitionIdChangeCount(success, failure);
     });
 }
 
-- (void)writeAttributeUnsupportedWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePartitionIdChangeCountWithMinInterval:(uint16_t)minInterval
+                                                    maxInterval:(uint16_t)maxInterval
+                                                responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::Unsupported::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.boolValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePartitionIdChangeCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeNullableBooleanWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePartitionIdChangeCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPBooleanAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNullableBoolean(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePartitionIdChangeCount(success);
+        },
+        true);
 }
 
-- (void)writeAttributeNullableBooleanWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeBetterPartitionAttachAttemptCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::NullableBoolean::TypeInfo;
-        TypeInfo::Type cppValue;
-        if (value == nil) {
-            cppValue.SetNull();
-        } else {
-            auto & nonNullValue_0 = cppValue.SetNonNull();
-            nonNullValue_0 = value.boolValue;
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeBetterPartitionAttachAttemptCount(success, failure);
     });
 }
 
-- (void)readAttributeNullableBitmap8WithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeBetterPartitionAttachAttemptCountWithMinInterval:(uint16_t)minInterval
+                                                               maxInterval:(uint16_t)maxInterval
+                                                           responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNullableBitmap8(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeBetterPartitionAttachAttemptCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeNullableBitmap8WithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeBetterPartitionAttachAttemptCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::NullableBitmap8::TypeInfo;
-        TypeInfo::Type cppValue;
-        if (value == nil) {
-            cppValue.SetNull();
-        } else {
-            auto & nonNullValue_0 = cppValue.SetNonNull();
-            nonNullValue_0 = value.unsignedCharValue;
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBetterPartitionAttachAttemptCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeNullableBitmap16WithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeParentChangeCountWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNullableBitmap16(success, failure);
+        return self.cppCluster.ReadAttributeParentChangeCount(success, failure);
     });
 }
 
-- (void)writeAttributeNullableBitmap16WithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeParentChangeCountWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::NullableBitmap16::TypeInfo;
-        TypeInfo::Type cppValue;
-        if (value == nil) {
-            cppValue.SetNull();
-        } else {
-            auto & nonNullValue_0 = cppValue.SetNonNull();
-            nonNullValue_0 = value.unsignedShortValue;
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeParentChangeCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeNullableBitmap32WithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeParentChangeCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNullableBitmap32(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeParentChangeCount(success);
+        },
+        true);
 }
 
-- (void)writeAttributeNullableBitmap32WithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeTxTotalCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::NullableBitmap32::TypeInfo;
-        TypeInfo::Type cppValue;
-        if (value == nil) {
-            cppValue.SetNull();
-        } else {
-            auto & nonNullValue_0 = cppValue.SetNonNull();
-            nonNullValue_0 = value.unsignedIntValue;
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTxTotalCount(success, failure);
     });
 }
 
-- (void)readAttributeNullableBitmap64WithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTxTotalCountWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNullableBitmap64(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTxTotalCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeNullableBitmap64WithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeTxTotalCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::NullableBitmap64::TypeInfo;
-        TypeInfo::Type cppValue;
-        if (value == nil) {
-            cppValue.SetNull();
-        } else {
-            auto & nonNullValue_0 = cppValue.SetNonNull();
-            nonNullValue_0 = value.unsignedLongLongValue;
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTxTotalCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeNullableInt8uWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeTxUnicastCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNullableInt8u(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTxUnicastCount(success, failure);
     });
 }
 
-- (void)writeAttributeNullableInt8uWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTxUnicastCountWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::NullableInt8u::TypeInfo;
-        TypeInfo::Type cppValue;
-        if (value == nil) {
-            cppValue.SetNull();
-        } else {
-            auto & nonNullValue_0 = cppValue.SetNonNull();
-            nonNullValue_0 = value.unsignedCharValue;
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTxUnicastCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeNullableInt16uWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeTxUnicastCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNullableInt16u(success, failure);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTxUnicastCount(success);
+        },
+        true);
 }
 
-- (void)writeAttributeNullableInt16uWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeTxBroadcastCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::NullableInt16u::TypeInfo;
-        TypeInfo::Type cppValue;
-        if (value == nil) {
-            cppValue.SetNull();
-        } else {
-            auto & nonNullValue_0 = cppValue.SetNonNull();
-            nonNullValue_0 = value.unsignedShortValue;
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTxBroadcastCount(success, failure);
     });
 }
 
-- (void)readAttributeNullableInt32uWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTxBroadcastCountWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNullableInt32u(success, failure);
+        return self.cppCluster.SubscribeAttributeTxBroadcastCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeNullableInt32uWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeTxBroadcastCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::NullableInt32u::TypeInfo;
-        TypeInfo::Type cppValue;
-        if (value == nil) {
-            cppValue.SetNull();
-        } else {
-            auto & nonNullValue_0 = cppValue.SetNonNull();
-            nonNullValue_0 = value.unsignedIntValue;
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTxBroadcastCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeNullableInt64uWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeTxAckRequestedCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNullableInt64u(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTxAckRequestedCount(success, failure);
     });
 }
 
-- (void)writeAttributeNullableInt64uWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTxAckRequestedCountWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::NullableInt64u::TypeInfo;
-        TypeInfo::Type cppValue;
-        if (value == nil) {
-            cppValue.SetNull();
-        } else {
-            auto & nonNullValue_0 = cppValue.SetNonNull();
-            nonNullValue_0 = value.unsignedLongLongValue;
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTxAckRequestedCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeNullableInt8sWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeTxAckRequestedCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNullableInt8s(success, failure);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTxAckRequestedCount(success);
+        },
+        true);
 }
 
-- (void)writeAttributeNullableInt8sWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeTxAckedCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::NullableInt8s::TypeInfo;
-        TypeInfo::Type cppValue;
-        if (value == nil) {
-            cppValue.SetNull();
-        } else {
-            auto & nonNullValue_0 = cppValue.SetNonNull();
-            nonNullValue_0 = value.charValue;
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTxAckedCount(success, failure);
     });
 }
 
-- (void)readAttributeNullableInt16sWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTxAckedCountWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNullableInt16s(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTxAckedCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeNullableInt16sWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeTxAckedCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::NullableInt16s::TypeInfo;
-        TypeInfo::Type cppValue;
-        if (value == nil) {
-            cppValue.SetNull();
-        } else {
-            auto & nonNullValue_0 = cppValue.SetNonNull();
-            nonNullValue_0 = value.shortValue;
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTxAckedCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeNullableInt32sWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeTxNoAckRequestedCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNullableInt32s(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTxNoAckRequestedCount(success, failure);
     });
 }
 
-- (void)writeAttributeNullableInt32sWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTxNoAckRequestedCountWithMinInterval:(uint16_t)minInterval
+                                                   maxInterval:(uint16_t)maxInterval
+                                               responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::NullableInt32s::TypeInfo;
-        TypeInfo::Type cppValue;
-        if (value == nil) {
-            cppValue.SetNull();
-        } else {
-            auto & nonNullValue_0 = cppValue.SetNonNull();
-            nonNullValue_0 = value.intValue;
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTxNoAckRequestedCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeNullableInt64sWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeTxNoAckRequestedCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNullableInt64s(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTxNoAckRequestedCount(success);
+        },
+        true);
+}
+
+- (void)readAttributeTxDataCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTxDataCount(success, failure);
     });
 }
 
-- (void)writeAttributeNullableInt64sWithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTxDataCountWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::NullableInt64s::TypeInfo;
-        TypeInfo::Type cppValue;
-        if (value == nil) {
-            cppValue.SetNull();
-        } else {
-            auto & nonNullValue_0 = cppValue.SetNonNull();
-            nonNullValue_0 = value.longLongValue;
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTxDataCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeNullableEnum8WithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeTxDataCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNullableEnum8(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTxDataCount(success);
+        },
+        true);
+}
+
+- (void)readAttributeTxDataPollCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTxDataPollCount(success, failure);
     });
 }
 
-- (void)writeAttributeNullableEnum8WithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTxDataPollCountWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::NullableEnum8::TypeInfo;
-        TypeInfo::Type cppValue;
-        if (value == nil) {
-            cppValue.SetNull();
-        } else {
-            auto & nonNullValue_0 = cppValue.SetNonNull();
-            nonNullValue_0 = static_cast<std::remove_reference_t<decltype(nonNullValue_0)>>(value.unsignedCharValue);
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTxDataPollCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeNullableEnum16WithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeTxDataPollCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNullableEnum16(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTxDataPollCount(success);
+        },
+        true);
+}
+
+- (void)readAttributeTxBeaconCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTxBeaconCount(success, failure);
     });
 }
 
-- (void)writeAttributeNullableEnum16WithValue:(NSNumber * _Nullable)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTxBeaconCountWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::NullableEnum16::TypeInfo;
-        TypeInfo::Type cppValue;
-        if (value == nil) {
-            cppValue.SetNull();
-        } else {
-            auto & nonNullValue_0 = cppValue.SetNonNull();
-            nonNullValue_0 = static_cast<std::remove_reference_t<decltype(nonNullValue_0)>>(value.unsignedShortValue);
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTxBeaconCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeNullableOctetStringWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeTxBeaconCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTxBeaconCount(success);
+        },
+        true);
+}
+
+- (void)readAttributeTxBeaconRequestCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNullableOctetString(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTxBeaconRequestCount(success, failure);
     });
 }
 
-- (void)writeAttributeNullableOctetStringWithValue:(NSData * _Nullable)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTxBeaconRequestCountWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::NullableOctetString::TypeInfo;
-        TypeInfo::Type cppValue;
-        if (value == nil) {
-            cppValue.SetNull();
-        } else {
-            auto & nonNullValue_0 = cppValue.SetNonNull();
-            nonNullValue_0 = [self asByteSpan:value];
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTxBeaconRequestCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeNullableCharStringWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeTxBeaconRequestCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNullableCharString(success, failure);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTxBeaconRequestCount(success);
+        },
+        true);
 }
 
-- (void)writeAttributeNullableCharStringWithValue:(NSString * _Nullable)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeTxOtherCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = TestCluster::Attributes::NullableCharString::TypeInfo;
-        TypeInfo::Type cppValue;
-        if (value == nil) {
-            cppValue.SetNull();
-        } else {
-            auto & nonNullValue_0 = cppValue.SetNonNull();
-            nonNullValue_0 = [self asCharSpan:value];
-        }
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTxOtherCount(success, failure);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTxOtherCountWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTxOtherCount(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
-
-@implementation CHIPThermostat
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributeTxOtherCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTxOtherCount(success);
+        },
+        true);
 }
 
-- (void)clearWeeklySchedule:(CHIPThermostatClusterClearWeeklySchedulePayload * _Nonnull)payload
-            responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeTxRetryCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Thermostat::Commands::ClearWeeklySchedule::Type request;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTxRetryCount(success, failure);
     });
 }
 
-- (void)getRelayStatusLog:(CHIPThermostatClusterGetRelayStatusLogPayload * _Nonnull)payload
-          responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTxRetryCountWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Thermostat::Commands::GetRelayStatusLog::Type request;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTxRetryCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)getWeeklySchedule:(CHIPThermostatClusterGetWeeklySchedulePayload * _Nonnull)payload
-          responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeTxRetryCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Thermostat::Commands::GetWeeklySchedule::Type request;
-    request.daysToReturn
-        = static_cast<std::remove_reference_t<decltype(request.daysToReturn)>>(payload.daysToReturn.unsignedCharValue);
-    request.modeToReturn
-        = static_cast<std::remove_reference_t<decltype(request.modeToReturn)>>(payload.modeToReturn.unsignedCharValue);
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTxRetryCount(success);
+        },
+        true);
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+- (void)readAttributeTxDirectMaxRetryExpiryCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTxDirectMaxRetryExpiryCount(success, failure);
     });
 }
 
-- (void)setWeeklySchedule:(CHIPThermostatClusterSetWeeklySchedulePayload * _Nonnull)payload
-          responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTxDirectMaxRetryExpiryCountWithMinInterval:(uint16_t)minInterval
+                                                         maxInterval:(uint16_t)maxInterval
+                                                     responseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Thermostat::Commands::SetWeeklySchedule::Type request;
-    request.numberOfTransitionsForSequence = payload.numberOfTransitionsForSequence.unsignedCharValue;
-    request.dayOfWeekForSequence = static_cast<std::remove_reference_t<decltype(request.dayOfWeekForSequence)>>(
-        payload.dayOfWeekForSequence.unsignedCharValue);
-    request.modeForSequence
-        = static_cast<std::remove_reference_t<decltype(request.modeForSequence)>>(payload.modeForSequence.unsignedCharValue);
-    {
-        using ListType = std::remove_reference_t<decltype(request.payload)>;
-        using ListMemberType = ListMemberTypeGetter<ListType>::Type;
-        if (payload.payload.count != 0) {
-            auto * listHolder_0 = new ListHolder<ListMemberType>(payload.payload.count);
-            if (listHolder_0 == nullptr || listHolder_0->mList == nullptr) {
-                return;
-            }
-            listFreer.add(listHolder_0);
-            for (size_t i = 0; i < payload.payload.count; ++i) {
-                if (![payload.payload[i] isKindOfClass:[NSNumber class]]) {
-                    // Wrong kind of value.
-                    return;
-                }
-                auto element_0 = (NSNumber *) payload.payload[i];
-                listHolder_0->mList[i] = element_0.unsignedCharValue;
-            }
-            request.payload = ListType(listHolder_0->mList, payload.payload.count);
-        } else {
-            request.payload = ListType();
-        }
-    }
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTxDirectMaxRetryExpiryCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)setpointRaiseLower:(CHIPThermostatClusterSetpointRaiseLowerPayload * _Nonnull)payload
-           responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeTxDirectMaxRetryExpiryCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    Thermostat::Commands::SetpointRaiseLower::Type request;
-    request.mode = static_cast<std::remove_reference_t<decltype(request.mode)>>(payload.mode.unsignedCharValue);
-    request.amount = payload.amount.charValue;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTxDirectMaxRetryExpiryCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeLocalTemperatureWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeTxIndirectMaxRetryExpiryCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeLocalTemperature(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTxIndirectMaxRetryExpiryCount(success, failure);
     });
 }
 
-- (void)subscribeAttributeLocalTemperatureWithMinInterval:(uint16_t)minInterval
-                                              maxInterval:(uint16_t)maxInterval
-                                          responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTxIndirectMaxRetryExpiryCountWithMinInterval:(uint16_t)minInterval
+                                                           maxInterval:(uint16_t)maxInterval
+                                                       responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.SubscribeAttributeLocalTemperature(success, failure, minInterval, maxInterval);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTxIndirectMaxRetryExpiryCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)reportAttributeLocalTemperatureWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeTxIndirectMaxRetryExpiryCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(
+    new CHIPInt32uAttributeCallbackBridge(
         self.callbackQueue, responseHandler,
         ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReportAttributeLocalTemperature(success);
+            return self.cppCluster.ReportAttributeTxIndirectMaxRetryExpiryCount(success);
         },
         true);
 }
 
-- (void)readAttributeAbsMinHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeTxErrCcaCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeAbsMinHeatSetpointLimit(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTxErrCcaCount(success, failure);
     });
 }
 
-- (void)readAttributeAbsMaxHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTxErrCcaCountWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeAbsMaxHeatSetpointLimit(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTxErrCcaCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeAbsMinCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeTxErrCcaCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeAbsMinCoolSetpointLimit(success, failure);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTxErrCcaCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeAbsMaxCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeTxErrAbortCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeAbsMaxCoolSetpointLimit(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTxErrAbortCount(success, failure);
     });
 }
 
-- (void)readAttributeOccupiedCoolingSetpointWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTxErrAbortCountWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOccupiedCoolingSetpoint(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTxErrAbortCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeOccupiedCoolingSetpointWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeTxErrAbortCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = Thermostat::Attributes::OccupiedCoolingSetpoint::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.shortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTxErrAbortCount(success);
+        },
+        true);
+}
+
+- (void)readAttributeTxErrBusyChannelCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeTxErrBusyChannelCount(success, failure);
     });
 }
 
-- (void)readAttributeOccupiedHeatingSetpointWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeTxErrBusyChannelCountWithMinInterval:(uint16_t)minInterval
+                                                   maxInterval:(uint16_t)maxInterval
+                                               responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOccupiedHeatingSetpoint(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeTxErrBusyChannelCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeOccupiedHeatingSetpointWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeTxErrBusyChannelCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = Thermostat::Attributes::OccupiedHeatingSetpoint::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.shortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeTxErrBusyChannelCount(success);
+        },
+        true);
+}
+
+- (void)readAttributeRxTotalCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRxTotalCount(success, failure);
     });
 }
 
-- (void)readAttributeMinHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRxTotalCountWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMinHeatSetpointLimit(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRxTotalCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeMinHeatSetpointLimitWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRxTotalCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = Thermostat::Attributes::MinHeatSetpointLimit::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.shortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRxTotalCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeMaxHeatSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRxUnicastCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMaxHeatSetpointLimit(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRxUnicastCount(success, failure);
     });
 }
 
-- (void)writeAttributeMaxHeatSetpointLimitWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRxUnicastCountWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = Thermostat::Attributes::MaxHeatSetpointLimit::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.shortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRxUnicastCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeMinCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRxUnicastCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMinCoolSetpointLimit(success, failure);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRxUnicastCount(success);
+        },
+        true);
 }
 
-- (void)writeAttributeMinCoolSetpointLimitWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRxBroadcastCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = Thermostat::Attributes::MinCoolSetpointLimit::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.shortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRxBroadcastCount(success, failure);
     });
 }
 
-- (void)readAttributeMaxCoolSetpointLimitWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRxBroadcastCountWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMaxCoolSetpointLimit(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRxBroadcastCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeMaxCoolSetpointLimitWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRxBroadcastCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = Thermostat::Attributes::MaxCoolSetpointLimit::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.shortValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRxBroadcastCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeMinSetpointDeadBandWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRxDataCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMinSetpointDeadBand(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRxDataCount(success, failure);
     });
 }
 
-- (void)writeAttributeMinSetpointDeadBandWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRxDataCountWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = Thermostat::Attributes::MinSetpointDeadBand::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = value.charValue;
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRxDataCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeControlSequenceOfOperationWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRxDataCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeControlSequenceOfOperation(success, failure);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRxDataCount(success);
+        },
+        true);
 }
 
-- (void)writeAttributeControlSequenceOfOperationWithValue:(NSNumber * _Nonnull)value
-                                          responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRxDataPollCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = Thermostat::Attributes::ControlSequenceOfOperation::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRxDataPollCount(success, failure);
     });
 }
 
-- (void)readAttributeSystemModeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRxDataPollCountWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeSystemMode(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRxDataPollCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeSystemModeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRxDataPollCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = Thermostat::Attributes::SystemMode::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRxDataPollCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeStartOfWeekWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRxBeaconCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeStartOfWeek(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRxBeaconCount(success, failure);
     });
 }
 
-- (void)readAttributeNumberOfWeeklyTransitionsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRxBeaconCountWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNumberOfWeeklyTransitions(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRxBeaconCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeNumberOfDailyTransitionsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRxBeaconCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNumberOfDailyTransitions(success, failure);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRxBeaconCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRxBeaconRequestCountWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeFeatureMap(success, failure);
+        return self.cppCluster.ReadAttributeRxBeaconRequestCount(success, failure);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRxBeaconRequestCountWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRxBeaconRequestCount(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
-
-@implementation CHIPThermostatUserInterfaceConfiguration
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributeRxBeaconRequestCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRxBeaconRequestCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeTemperatureDisplayModeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRxOtherCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTemperatureDisplayMode(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRxOtherCount(success, failure);
     });
 }
 
-- (void)writeAttributeTemperatureDisplayModeWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRxOtherCountWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = ThermostatUserInterfaceConfiguration::Attributes::TemperatureDisplayMode::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRxOtherCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeKeypadLockoutWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRxOtherCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeKeypadLockout(success, failure);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRxOtherCount(success);
+        },
+        true);
 }
 
-- (void)writeAttributeKeypadLockoutWithValue:(NSNumber * _Nonnull)value responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRxAddressFilteredCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = ThermostatUserInterfaceConfiguration::Attributes::KeypadLockout::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRxAddressFilteredCount(success, failure);
     });
 }
 
-- (void)readAttributeScheduleProgrammingVisibilityWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRxAddressFilteredCountWithMinInterval:(uint16_t)minInterval
+                                                    maxInterval:(uint16_t)maxInterval
+                                                responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeScheduleProgrammingVisibility(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRxAddressFilteredCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)writeAttributeScheduleProgrammingVisibilityWithValue:(NSNumber * _Nonnull)value
-                                             responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRxAddressFilteredCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        ListFreer listFreer;
-        using TypeInfo = ThermostatUserInterfaceConfiguration::Attributes::ScheduleProgrammingVisibility::TypeInfo;
-        TypeInfo::Type cppValue;
-        cppValue = static_cast<std::remove_reference_t<decltype(cppValue)>>(value.unsignedCharValue);
-        auto successFn = Callback<CHIPDefaultSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.WriteAttribute<TypeInfo>(cppValue, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRxAddressFilteredCount(success);
+        },
+        true);
+}
+
+- (void)readAttributeRxDestAddrFilteredCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRxDestAddrFilteredCount(success, failure);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRxDestAddrFilteredCountWithMinInterval:(uint16_t)minInterval
+                                                     maxInterval:(uint16_t)maxInterval
+                                                 responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRxDestAddrFilteredCount(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
+- (void)reportAttributeRxDestAddrFilteredCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRxDestAddrFilteredCount(success);
+        },
+        true);
+}
 
-@implementation CHIPThreadNetworkDiagnostics
+- (void)readAttributeRxDuplicatedCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRxDuplicatedCount(success, failure);
+    });
+}
 
-- (chip::Controller::ClusterBase *)getCluster
+- (void)subscribeAttributeRxDuplicatedCountWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRxDuplicatedCount(success, failure, minInterval, maxInterval);
+    });
 }
 
-- (void)resetCounts:(CHIPThreadNetworkDiagnosticsClusterResetCountsPayload * _Nonnull)payload
-    responseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRxDuplicatedCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    ThreadNetworkDiagnostics::Commands::ResetCounts::Type request;
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRxDuplicatedCount(success);
+        },
+        true);
+}
 
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+- (void)readAttributeRxErrNoFrameCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRxErrNoFrameCount(success, failure);
     });
 }
 
-- (void)readAttributeChannelWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRxErrNoFrameCountWithMinInterval:(uint16_t)minInterval
+                                               maxInterval:(uint16_t)maxInterval
+                                           responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeChannel(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRxErrNoFrameCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeRoutingRoleWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRxErrNoFrameCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRoutingRole(success, failure);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRxErrNoFrameCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeNetworkNameWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRxErrUnknownNeighborCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeNetworkName(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRxErrUnknownNeighborCount(success, failure);
     });
 }
 
-- (void)readAttributePanIdWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRxErrUnknownNeighborCountWithMinInterval:(uint16_t)minInterval
+                                                       maxInterval:(uint16_t)maxInterval
+                                                   responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePanId(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRxErrUnknownNeighborCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeExtendedPanIdWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRxErrUnknownNeighborCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeExtendedPanId(success, failure);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRxErrUnknownNeighborCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeMeshLocalPrefixWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRxErrInvalidSrcAddrCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeMeshLocalPrefix(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRxErrInvalidSrcAddrCount(success, failure);
     });
 }
 
-- (void)readAttributeOverrunCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRxErrInvalidSrcAddrCountWithMinInterval:(uint16_t)minInterval
+                                                      maxInterval:(uint16_t)maxInterval
+                                                  responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOverrunCount(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRxErrInvalidSrcAddrCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeNeighborTableListWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRxErrInvalidSrcAddrCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPThreadNetworkDiagnosticsNeighborTableListListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeNeighborTableList(success, failure);
-        });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRxErrInvalidSrcAddrCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeRouteTableListWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRxErrSecCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPThreadNetworkDiagnosticsRouteTableListListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeRouteTableList(success, failure);
-        });
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRxErrSecCount(success, failure);
+    });
 }
 
-- (void)readAttributePartitionIdWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRxErrSecCountWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePartitionId(success, failure);
+        return self.cppCluster.SubscribeAttributeRxErrSecCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeWeightingWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRxErrSecCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeWeighting(success, failure);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRxErrSecCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeDataVersionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRxErrFcsCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeDataVersion(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRxErrFcsCount(success, failure);
     });
 }
 
-- (void)readAttributeStableDataVersionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRxErrFcsCountWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeStableDataVersion(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRxErrFcsCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeLeaderRouterIdWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRxErrFcsCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeLeaderRouterId(success, failure);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRxErrFcsCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeDetachedRoleCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRxErrOtherCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeDetachedRoleCount(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRxErrOtherCount(success, failure);
     });
 }
 
-- (void)readAttributeChildRoleCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRxErrOtherCountWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeChildRoleCount(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRxErrOtherCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeRouterRoleCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRxErrOtherCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRouterRoleCount(success, failure);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRxErrOtherCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeLeaderRoleCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeActiveTimestampWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeLeaderRoleCount(success, failure);
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeActiveTimestamp(success, failure);
     });
 }
 
-- (void)readAttributeAttachAttemptCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeActiveTimestampWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeAttachAttemptCount(success, failure);
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeActiveTimestamp(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributePartitionIdChangeCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeActiveTimestampWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePartitionIdChangeCount(success, failure);
-    });
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeActiveTimestamp(success);
+        },
+        true);
 }
 
-- (void)readAttributeBetterPartitionAttachAttemptCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePendingTimestampWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeBetterPartitionAttachAttemptCount(success, failure);
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePendingTimestamp(success, failure);
     });
 }
 
-- (void)readAttributeParentChangeCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePendingTimestampWithMinInterval:(uint16_t)minInterval
+                                              maxInterval:(uint16_t)maxInterval
+                                          responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeParentChangeCount(success, failure);
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePendingTimestamp(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeTxTotalCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePendingTimestampWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTxTotalCount(success, failure);
-    });
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePendingTimestamp(success);
+        },
+        true);
 }
 
-- (void)readAttributeTxUnicastCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeDelayWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTxUnicastCount(success, failure);
+        return self.cppCluster.ReadAttributeDelay(success, failure);
     });
 }
 
-- (void)readAttributeTxBroadcastCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeDelayWithMinInterval:(uint16_t)minInterval
+                                   maxInterval:(uint16_t)maxInterval
+                               responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTxBroadcastCount(success, failure);
+        return self.cppCluster.SubscribeAttributeDelay(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeTxAckRequestedCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeDelayWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTxAckRequestedCount(success, failure);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeDelay(success);
+        },
+        true);
 }
 
-- (void)readAttributeTxAckedCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeSecurityPolicyWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTxAckedCount(success, failure);
-    });
+    new CHIPThreadNetworkDiagnosticsSecurityPolicyListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeSecurityPolicy(success, failure);
+        });
 }
 
-- (void)readAttributeTxNoAckRequestedCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeChannelMaskWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTxNoAckRequestedCount(success, failure);
+    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeChannelMask(success, failure);
     });
 }
 
-- (void)readAttributeTxDataCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeChannelMaskWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTxDataCount(success, failure);
+    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeChannelMask(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeTxDataPollCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeChannelMaskWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTxDataPollCount(success, failure);
-    });
+    new CHIPOctetStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeChannelMask(success);
+        },
+        true);
 }
 
-- (void)readAttributeTxBeaconCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeOperationalDatasetComponentsWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTxBeaconCount(success, failure);
-    });
+    new CHIPThreadNetworkDiagnosticsOperationalDatasetComponentsListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeOperationalDatasetComponents(success, failure);
+        });
 }
 
-- (void)readAttributeTxBeaconRequestCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeActiveNetworkFaultsListWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTxBeaconRequestCount(success, failure);
-    });
+    new CHIPThreadNetworkDiagnosticsActiveNetworkFaultsListListAttributeCallbackBridge(
+        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReadAttributeActiveNetworkFaultsList(success, failure);
+        });
 }
 
-- (void)readAttributeTxOtherCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTxOtherCount(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
     });
 }
 
-- (void)readAttributeTxRetryCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTxRetryCount(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeTxDirectMaxRetryExpiryCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
+@end
+
+@implementation CHIPWakeOnLan
+
+- (chip::Controller::ClusterBase *)getCluster
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTxDirectMaxRetryExpiryCount(success, failure);
-    });
+    return &_cppCluster;
 }
 
-- (void)readAttributeTxIndirectMaxRetryExpiryCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeWakeOnLanMacAddressWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTxIndirectMaxRetryExpiryCount(success, failure);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeWakeOnLanMacAddress(success, failure);
     });
 }
 
-- (void)readAttributeTxErrCcaCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeWakeOnLanMacAddressWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTxErrCcaCount(success, failure);
+    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeWakeOnLanMacAddress(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeTxErrAbortCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeWakeOnLanMacAddressWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTxErrAbortCount(success, failure);
-    });
+    new CHIPCharStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeWakeOnLanMacAddress(success);
+        },
+        true);
 }
 
-- (void)readAttributeTxErrBusyChannelCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeTxErrBusyChannelCount(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
     });
 }
 
-- (void)readAttributeRxTotalCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRxTotalCount(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeRxUnicastCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRxUnicastCount(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
 }
 
-- (void)readAttributeRxBroadcastCountWithResponseHandler:(ResponseHandler)responseHandler
+@end
+
+@implementation CHIPWiFiNetworkDiagnostics
+
+- (chip::Controller::ClusterBase *)getCluster
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRxBroadcastCount(success, failure);
-    });
+    return &_cppCluster;
 }
 
-- (void)readAttributeRxDataCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)resetCounts:(CHIPWiFiNetworkDiagnosticsClusterResetCountsPayload * _Nonnull)payload
+    responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRxDataCount(success, failure);
+    ListFreer listFreer;
+    WiFiNetworkDiagnostics::Commands::ResetCounts::Type request;
+
+    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
+        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
+        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
     });
 }
 
-- (void)readAttributeRxDataPollCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeBssidWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRxDataPollCount(success, failure);
+    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeBssid(success, failure);
     });
 }
 
-- (void)readAttributeRxBeaconCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeBssidWithMinInterval:(uint16_t)minInterval
+                                   maxInterval:(uint16_t)maxInterval
+                               responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRxBeaconCount(success, failure);
+    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeBssid(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeRxBeaconRequestCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeBssidWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRxBeaconRequestCount(success, failure);
-    });
+    new CHIPOctetStringAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBssid(success);
+        },
+        true);
 }
 
-- (void)readAttributeRxOtherCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeSecurityTypeWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRxOtherCount(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeSecurityType(success, failure);
     });
 }
 
-- (void)readAttributeRxAddressFilteredCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeSecurityTypeWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRxAddressFilteredCount(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeSecurityType(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeRxDestAddrFilteredCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeSecurityTypeWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRxDestAddrFilteredCount(success, failure);
-    });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeSecurityType(success);
+        },
+        true);
 }
 
-- (void)readAttributeRxDuplicatedCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeWiFiVersionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRxDuplicatedCount(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeWiFiVersion(success, failure);
     });
 }
 
-- (void)readAttributeRxErrNoFrameCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeWiFiVersionWithMinInterval:(uint16_t)minInterval
+                                         maxInterval:(uint16_t)maxInterval
+                                     responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRxErrNoFrameCount(success, failure);
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeWiFiVersion(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeRxErrUnknownNeighborCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeWiFiVersionWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRxErrUnknownNeighborCount(success, failure);
-    });
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeWiFiVersion(success);
+        },
+        true);
 }
 
-- (void)readAttributeRxErrInvalidSrcAddrCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeChannelNumberWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRxErrInvalidSrcAddrCount(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeChannelNumber(success, failure);
     });
 }
 
-- (void)readAttributeRxErrSecCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeChannelNumberWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRxErrSecCount(success, failure);
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeChannelNumber(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeRxErrFcsCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeChannelNumberWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRxErrFcsCount(success, failure);
-    });
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeChannelNumber(success);
+        },
+        true);
 }
 
-- (void)readAttributeRxErrOtherCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeRssiWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRxErrOtherCount(success, failure);
+    new CHIPInt8sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeRssi(success, failure);
     });
 }
 
-- (void)readAttributeActiveTimestampWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeRssiWithMinInterval:(uint16_t)minInterval
+                                  maxInterval:(uint16_t)maxInterval
+                              responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeActiveTimestamp(success, failure);
+    new CHIPInt8sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeRssi(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributePendingTimestampWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeRssiWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePendingTimestamp(success, failure);
-    });
+    new CHIPInt8sAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeRssi(success);
+        },
+        true);
 }
 
-- (void)readAttributeDelayWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeBeaconLostCountWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeDelay(success, failure);
+        return self.cppCluster.ReadAttributeBeaconLostCount(success, failure);
     });
 }
 
-- (void)readAttributeSecurityPolicyWithResponseHandler:(ResponseHandler)responseHandler
-{
-    new CHIPThreadNetworkDiagnosticsSecurityPolicyListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeSecurityPolicy(success, failure);
-        });
-}
-
-- (void)readAttributeChannelMaskWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeBeaconLostCountWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeChannelMask(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeBeaconLostCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeOperationalDatasetComponentsWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeBeaconLostCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPThreadNetworkDiagnosticsOperationalDatasetComponentsListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeOperationalDatasetComponents(success, failure);
-        });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBeaconLostCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeActiveNetworkFaultsListWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeBeaconRxCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPThreadNetworkDiagnosticsActiveNetworkFaultsListListAttributeCallbackBridge(
-        self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-            return self.cppCluster.ReadAttributeActiveNetworkFaultsList(success, failure);
-        });
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeBeaconRxCount(success, failure);
+    });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeBeaconRxCountWithMinInterval:(uint16_t)minInterval
+                                           maxInterval:(uint16_t)maxInterval
+                                       responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeBeaconRxCount(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
-
-@implementation CHIPWakeOnLan
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributeBeaconRxCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeBeaconRxCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeWakeOnLanMacAddressWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePacketMulticastRxCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPCharStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeWakeOnLanMacAddress(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePacketMulticastRxCount(success, failure);
     });
 }
 
-- (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePacketMulticastRxCountWithMinInterval:(uint16_t)minInterval
+                                                    maxInterval:(uint16_t)maxInterval
+                                                responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeClusterRevision(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePacketMulticastRxCount(success, failure, minInterval, maxInterval);
     });
 }
 
-@end
-
-@implementation CHIPWiFiNetworkDiagnostics
-
-- (chip::Controller::ClusterBase *)getCluster
+- (void)reportAttributePacketMulticastRxCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    return &_cppCluster;
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePacketMulticastRxCount(success);
+        },
+        true);
 }
 
-- (void)resetCounts:(CHIPWiFiNetworkDiagnosticsClusterResetCountsPayload * _Nonnull)payload
-    responseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePacketMulticastTxCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    ListFreer listFreer;
-    WiFiNetworkDiagnostics::Commands::ResetCounts::Type request;
-
-    new CHIPCommandSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        auto successFn = Callback<CHIPCommandSuccessCallbackType>::FromCancelable(success);
-        auto failureFn = Callback<CHIPDefaultFailureCallbackType>::FromCancelable(failure);
-        return self.cppCluster.InvokeCommand(request, successFn->mContext, successFn->mCall, failureFn->mCall);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePacketMulticastTxCount(success, failure);
     });
 }
 
-- (void)readAttributeBssidWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePacketMulticastTxCountWithMinInterval:(uint16_t)minInterval
+                                                    maxInterval:(uint16_t)maxInterval
+                                                responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPOctetStringAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeBssid(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePacketMulticastTxCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeSecurityTypeWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePacketMulticastTxCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeSecurityType(success, failure);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePacketMulticastTxCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeWiFiVersionWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePacketUnicastRxCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeWiFiVersion(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributePacketUnicastRxCount(success, failure);
     });
 }
 
-- (void)readAttributeChannelNumberWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePacketUnicastRxCountWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeChannelNumber(success, failure);
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributePacketUnicastRxCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributeRssiWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePacketUnicastRxCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt8sAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeRssi(success, failure);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePacketUnicastRxCount(success);
+        },
+        true);
 }
 
-- (void)readAttributeBeaconLostCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributePacketUnicastTxCountWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeBeaconLostCount(success, failure);
+        return self.cppCluster.ReadAttributePacketUnicastTxCount(success, failure);
     });
 }
 
-- (void)readAttributeBeaconRxCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributePacketUnicastTxCountWithMinInterval:(uint16_t)minInterval
+                                                  maxInterval:(uint16_t)maxInterval
+                                              responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeBeaconRxCount(success, failure);
+        return self.cppCluster.SubscribeAttributePacketUnicastTxCount(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributePacketMulticastRxCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributePacketUnicastTxCountWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePacketMulticastRxCount(success, failure);
-    });
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributePacketUnicastTxCount(success);
+        },
+        true);
 }
 
-- (void)readAttributePacketMulticastTxCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeCurrentMaxRateWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePacketMulticastTxCount(success, failure);
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.ReadAttributeCurrentMaxRate(success, failure);
     });
 }
 
-- (void)readAttributePacketUnicastRxCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeCurrentMaxRateWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePacketUnicastRxCount(success, failure);
+    new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCurrentMaxRate(success, failure, minInterval, maxInterval);
     });
 }
 
-- (void)readAttributePacketUnicastTxCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)reportAttributeCurrentMaxRateWithResponseHandler:(ResponseHandler)responseHandler
 {
-    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributePacketUnicastTxCount(success, failure);
-    });
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentMaxRate(success);
+        },
+        true);
 }
 
-- (void)readAttributeCurrentMaxRateWithResponseHandler:(ResponseHandler)responseHandler
+- (void)readAttributeOverrunCountWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeCurrentMaxRate(success, failure);
+        return self.cppCluster.ReadAttributeOverrunCount(success, failure);
     });
 }
 
-- (void)readAttributeOverrunCountWithResponseHandler:(ResponseHandler)responseHandler
+- (void)subscribeAttributeOverrunCountWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt64uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
-        return self.cppCluster.ReadAttributeOverrunCount(success, failure);
+        return self.cppCluster.SubscribeAttributeOverrunCount(success, failure, minInterval, maxInterval);
     });
 }
 
+- (void)reportAttributeOverrunCountWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt64uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeOverrunCount(success);
+        },
+        true);
+}
+
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -8271,6 +15757,25 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
 @end
 
 @implementation CHIPWindowCovering
@@ -8381,6 +15886,25 @@ new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
+- (void)subscribeAttributeTypeWithMinInterval:(uint16_t)minInterval
+                                  maxInterval:(uint16_t)maxInterval
+                              responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeType(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeTypeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeType(success);
+        },
+        true);
+}
+
 - (void)readAttributeCurrentPositionLiftWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -8388,6 +15912,25 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeCurrentPositionLiftWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCurrentPositionLift(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeCurrentPositionLiftWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentPositionLift(success);
+        },
+        true);
+}
+
 - (void)readAttributeCurrentPositionTiltWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -8395,6 +15938,25 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeCurrentPositionTiltWithMinInterval:(uint16_t)minInterval
+                                                 maxInterval:(uint16_t)maxInterval
+                                             responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeCurrentPositionTilt(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeCurrentPositionTiltWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeCurrentPositionTilt(success);
+        },
+        true);
+}
+
 - (void)readAttributeConfigStatusWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -8402,6 +15964,25 @@ new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
+- (void)subscribeAttributeConfigStatusWithMinInterval:(uint16_t)minInterval
+                                          maxInterval:(uint16_t)maxInterval
+                                      responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeConfigStatus(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeConfigStatusWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeConfigStatus(success);
+        },
+        true);
+}
+
 - (void)readAttributeCurrentPositionLiftPercentageWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -8539,6 +16120,25 @@ new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
+- (void)subscribeAttributeEndProductTypeWithMinInterval:(uint16_t)minInterval
+                                            maxInterval:(uint16_t)maxInterval
+                                        responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeEndProductType(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeEndProductTypeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeEndProductType(success);
+        },
+        true);
+}
+
 - (void)readAttributeCurrentPositionLiftPercent100thsWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -8598,6 +16198,25 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeInstalledOpenLimitLiftWithMinInterval:(uint16_t)minInterval
+                                                    maxInterval:(uint16_t)maxInterval
+                                                responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeInstalledOpenLimitLift(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeInstalledOpenLimitLiftWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeInstalledOpenLimitLift(success);
+        },
+        true);
+}
+
 - (void)readAttributeInstalledClosedLimitLiftWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -8605,6 +16224,25 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeInstalledClosedLimitLiftWithMinInterval:(uint16_t)minInterval
+                                                      maxInterval:(uint16_t)maxInterval
+                                                  responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeInstalledClosedLimitLift(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeInstalledClosedLimitLiftWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeInstalledClosedLimitLift(success);
+        },
+        true);
+}
+
 - (void)readAttributeInstalledOpenLimitTiltWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -8612,6 +16250,25 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeInstalledOpenLimitTiltWithMinInterval:(uint16_t)minInterval
+                                                    maxInterval:(uint16_t)maxInterval
+                                                responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeInstalledOpenLimitTilt(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeInstalledOpenLimitTiltWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeInstalledOpenLimitTilt(success);
+        },
+        true);
+}
+
 - (void)readAttributeInstalledClosedLimitTiltWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -8619,6 +16276,25 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeInstalledClosedLimitTiltWithMinInterval:(uint16_t)minInterval
+                                                      maxInterval:(uint16_t)maxInterval
+                                                  responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeInstalledClosedLimitTilt(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeInstalledClosedLimitTiltWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeInstalledClosedLimitTilt(success);
+        },
+        true);
+}
+
 - (void)readAttributeModeWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -8639,6 +16315,25 @@ new CHIPDefaultSuccessCallbackBridge(self.callbackQueue, responseHandler, ^(Canc
     });
 }
 
+- (void)subscribeAttributeModeWithMinInterval:(uint16_t)minInterval
+                                  maxInterval:(uint16_t)maxInterval
+                              responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeMode(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeModeWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt8uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeMode(success);
+        },
+        true);
+}
+
 - (void)readAttributeSafetyStatusWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -8672,6 +16367,25 @@ new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeFeatureMapWithMinInterval:(uint16_t)minInterval
+                                        maxInterval:(uint16_t)maxInterval
+                                    responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeFeatureMap(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeFeatureMapWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt32uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeFeatureMap(success);
+        },
+        true);
+}
+
 - (void)readAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
 {
     new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
@@ -8679,4 +16393,23 @@ new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Can
     });
 }
 
+- (void)subscribeAttributeClusterRevisionWithMinInterval:(uint16_t)minInterval
+                                             maxInterval:(uint16_t)maxInterval
+                                         responseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(self.callbackQueue, responseHandler, ^(Cancelable * success, Cancelable * failure) {
+        return self.cppCluster.SubscribeAttributeClusterRevision(success, failure, minInterval, maxInterval);
+    });
+}
+
+- (void)reportAttributeClusterRevisionWithResponseHandler:(ResponseHandler)responseHandler
+{
+    new CHIPInt16uAttributeCallbackBridge(
+        self.callbackQueue, responseHandler,
+        ^(Cancelable * success, Cancelable * failure) {
+            return self.cppCluster.ReportAttributeClusterRevision(success);
+        },
+        true);
+}
+
 @end
diff --git a/zzz_generated/chip-tool/zap-generated/cluster/Commands.h b/zzz_generated/chip-tool/zap-generated/cluster/Commands.h
index 8cb81d5af96011..1f2bf54ea4ff65 100644
--- a/zzz_generated/chip-tool/zap-generated/cluster/Commands.h
+++ b/zzz_generated/chip-tool/zap-generated/cluster/Commands.h
@@ -4147,6 +4147,58 @@ class ReadAccountLoginClusterRevision : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
+class ReportAccountLoginClusterRevision : public ModelCommand
+{
+public:
+    ReportAccountLoginClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportAccountLoginClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x050E) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::AccountLoginCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
 /*----------------------------------------------------------------------------*\
 | Cluster AdministratorCommissioning                                  | 0x003C |
 |------------------------------------------------------------------------------|
@@ -4263,6 +4315,58 @@ class ReadAdministratorCommissioningClusterRevision : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
+class ReportAdministratorCommissioningClusterRevision : public ModelCommand
+{
+public:
+    ReportAdministratorCommissioningClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportAdministratorCommissioningClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x003C) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::AdministratorCommissioningCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
 /*----------------------------------------------------------------------------*\
 | Cluster ApplicationBasic                                            | 0x050D |
 |------------------------------------------------------------------------------|
@@ -4338,6 +4442,58 @@ class ReadApplicationBasicVendorName : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
+class ReportApplicationBasicVendorName : public ModelCommand
+{
+public:
+    ReportApplicationBasicVendorName() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "vendor-name");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportApplicationBasicVendorName()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x050D) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ApplicationBasicCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeVendorName(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeVendorName(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
 /*
  * Attribute VendorId
  */
@@ -4372,6 +4528,58 @@ class ReadApplicationBasicVendorId : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
+class ReportApplicationBasicVendorId : public ModelCommand
+{
+public:
+    ReportApplicationBasicVendorId() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "vendor-id");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportApplicationBasicVendorId()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x050D) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ApplicationBasicCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeVendorId(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeVendorId(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
 /*
  * Attribute ApplicationName
  */
@@ -4406,6 +4614,58 @@ class ReadApplicationBasicApplicationName : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
+class ReportApplicationBasicApplicationName : public ModelCommand
+{
+public:
+    ReportApplicationBasicApplicationName() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "application-name");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportApplicationBasicApplicationName()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x050D) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ApplicationBasicCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeApplicationName(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeApplicationName(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
 /*
  * Attribute ProductId
  */
@@ -4440,6 +4700,58 @@ class ReadApplicationBasicProductId : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
+class ReportApplicationBasicProductId : public ModelCommand
+{
+public:
+    ReportApplicationBasicProductId() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "product-id");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportApplicationBasicProductId()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x050D) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ApplicationBasicCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeProductId(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeProductId(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
 /*
  * Attribute ApplicationId
  */
@@ -4474,6 +4786,58 @@ class ReadApplicationBasicApplicationId : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
+class ReportApplicationBasicApplicationId : public ModelCommand
+{
+public:
+    ReportApplicationBasicApplicationId() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "application-id");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportApplicationBasicApplicationId()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x050D) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ApplicationBasicCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeApplicationId(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeApplicationId(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
 /*
  * Attribute CatalogVendorId
  */
@@ -4508,6 +4872,58 @@ class ReadApplicationBasicCatalogVendorId : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
+class ReportApplicationBasicCatalogVendorId : public ModelCommand
+{
+public:
+    ReportApplicationBasicCatalogVendorId() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "catalog-vendor-id");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportApplicationBasicCatalogVendorId()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x050D) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ApplicationBasicCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCatalogVendorId(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCatalogVendorId(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
 /*
  * Attribute ApplicationStatus
  */
@@ -4542,6 +4958,59 @@ class ReadApplicationBasicApplicationStatus : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
+class ReportApplicationBasicApplicationStatus : public ModelCommand
+{
+public:
+    ReportApplicationBasicApplicationStatus() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "application-status");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportApplicationBasicApplicationStatus()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x050D) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ApplicationBasicCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeApplicationStatus(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeApplicationStatus(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
 /*
  * Attribute ClusterRevision
  */
@@ -4576,6 +5045,58 @@ class ReadApplicationBasicClusterRevision : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
+class ReportApplicationBasicClusterRevision : public ModelCommand
+{
+public:
+    ReportApplicationBasicClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportApplicationBasicClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x050D) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ApplicationBasicCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
 /*----------------------------------------------------------------------------*\
 | Cluster ApplicationLauncher                                         | 0x050C |
 |------------------------------------------------------------------------------|
@@ -4684,53 +5205,71 @@ class ReadApplicationLauncherCatalogVendorId : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ApplicationId
- */
-class ReadApplicationLauncherApplicationId : public ModelCommand
+class ReportApplicationLauncherCatalogVendorId : public ModelCommand
 {
 public:
-    ReadApplicationLauncherApplicationId() : ModelCommand("read")
+    ReportApplicationLauncherCatalogVendorId() : ModelCommand("report")
     {
-        AddArgument("attr-name", "application-id");
+        AddArgument("attr-name", "catalog-vendor-id");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadApplicationLauncherApplicationId()
+    ~ReportApplicationLauncherCatalogVendorId()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050C) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050C) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ApplicationLauncherCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeApplicationId(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCatalogVendorId(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCatalogVendorId(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute ApplicationId
  */
-class ReadApplicationLauncherClusterRevision : public ModelCommand
+class ReadApplicationLauncherApplicationId : public ModelCommand
 {
 public:
-    ReadApplicationLauncherClusterRevision() : ModelCommand("read")
+    ReadApplicationLauncherApplicationId() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "application-id");
         ModelCommand::AddArguments();
     }
 
-    ~ReadApplicationLauncherClusterRevision()
+    ~ReadApplicationLauncherApplicationId()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -4742,23 +5281,161 @@ class ReadApplicationLauncherClusterRevision : public ModelCommand
 
         chip::Controller::ApplicationLauncherCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeApplicationId(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster AudioOutput                                                 | 0x050B |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * RenameOutput                                                      |   0x01 |
-| * SelectOutput                                                      |   0x00 |
-|------------------------------------------------------------------------------|
+class ReportApplicationLauncherApplicationId : public ModelCommand
+{
+public:
+    ReportApplicationLauncherApplicationId() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "application-id");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportApplicationLauncherApplicationId()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x050C) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ApplicationLauncherCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeApplicationId(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeApplicationId(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadApplicationLauncherClusterRevision : public ModelCommand
+{
+public:
+    ReadApplicationLauncherClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadApplicationLauncherClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x050C) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ApplicationLauncherCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportApplicationLauncherClusterRevision : public ModelCommand
+{
+public:
+    ReportApplicationLauncherClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportApplicationLauncherClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x050C) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ApplicationLauncherCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster AudioOutput                                                 | 0x050B |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * RenameOutput                                                      |   0x01 |
+| * SelectOutput                                                      |   0x00 |
+|------------------------------------------------------------------------------|
 | Attributes:                                                         |        |
 | * AudioOutputList                                                   | 0x0000 |
 | * CurrentAudioOutput                                                | 0x0001 |
@@ -4881,6 +5558,59 @@ class ReadAudioOutputCurrentAudioOutput : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
+class ReportAudioOutputCurrentAudioOutput : public ModelCommand
+{
+public:
+    ReportAudioOutputCurrentAudioOutput() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "current-audio-output");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportAudioOutputCurrentAudioOutput()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x050B) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::AudioOutputCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentAudioOutput(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentAudioOutput(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                            mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
 /*
  * Attribute ClusterRevision
  */
@@ -4915,6 +5645,58 @@ class ReadAudioOutputClusterRevision : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
+class ReportAudioOutputClusterRevision : public ModelCommand
+{
+public:
+    ReportAudioOutputClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportAudioOutputClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x050B) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::AudioOutputCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
 /*----------------------------------------------------------------------------*\
 | Cluster BarrierControl                                              | 0x0103 |
 |------------------------------------------------------------------------------|
@@ -5006,6 +5788,59 @@ class ReadBarrierControlBarrierMovingState : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
+class ReportBarrierControlBarrierMovingState : public ModelCommand
+{
+public:
+    ReportBarrierControlBarrierMovingState() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "barrier-moving-state");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportBarrierControlBarrierMovingState()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0103) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::BarrierControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeBarrierMovingState(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeBarrierMovingState(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                            mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
 /*
  * Attribute BarrierSafetyStatus
  */
@@ -5040,6 +5875,59 @@ class ReadBarrierControlBarrierSafetyStatus : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
+class ReportBarrierControlBarrierSafetyStatus : public ModelCommand
+{
+public:
+    ReportBarrierControlBarrierSafetyStatus() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "barrier-safety-status");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportBarrierControlBarrierSafetyStatus()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0103) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::BarrierControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeBarrierSafetyStatus(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeBarrierSafetyStatus(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                             mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
 /*
  * Attribute BarrierCapabilities
  */
@@ -5074,6 +5962,59 @@ class ReadBarrierControlBarrierCapabilities : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
+class ReportBarrierControlBarrierCapabilities : public ModelCommand
+{
+public:
+    ReportBarrierControlBarrierCapabilities() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "barrier-capabilities");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportBarrierControlBarrierCapabilities()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0103) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::BarrierControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeBarrierCapabilities(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeBarrierCapabilities(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                             mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
 /*
  * Attribute BarrierPosition
  */
@@ -5108,6 +6049,58 @@ class ReadBarrierControlBarrierPosition : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
+class ReportBarrierControlBarrierPosition : public ModelCommand
+{
+public:
+    ReportBarrierControlBarrierPosition() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "barrier-position");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportBarrierControlBarrierPosition()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0103) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::BarrierControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeBarrierPosition(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeBarrierPosition(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
 /*
  * Attribute ClusterRevision
  */
@@ -5142,6 +6135,58 @@ class ReadBarrierControlClusterRevision : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
+class ReportBarrierControlClusterRevision : public ModelCommand
+{
+public:
+    ReportBarrierControlClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportBarrierControlClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0103) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::BarrierControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
 /*----------------------------------------------------------------------------*\
 | Cluster Basic                                                       | 0x0028 |
 |------------------------------------------------------------------------------|
@@ -5223,53 +6268,72 @@ class ReadBasicInteractionModelVersion : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute VendorName
- */
-class ReadBasicVendorName : public ModelCommand
+class ReportBasicInteractionModelVersion : public ModelCommand
 {
 public:
-    ReadBasicVendorName() : ModelCommand("read")
+    ReportBasicInteractionModelVersion() : ModelCommand("report")
     {
-        AddArgument("attr-name", "vendor-name");
+        AddArgument("attr-name", "interaction-model-version");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadBasicVendorName()
+    ~ReportBasicInteractionModelVersion()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeVendorName(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeInteractionModelVersion(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeInteractionModelVersion(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                 mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute VendorID
+ * Attribute VendorName
  */
-class ReadBasicVendorID : public ModelCommand
+class ReadBasicVendorName : public ModelCommand
 {
 public:
-    ReadBasicVendorID() : ModelCommand("read")
+    ReadBasicVendorName() : ModelCommand("read")
     {
-        AddArgument("attr-name", "vendor-id");
+        AddArgument("attr-name", "vendor-name");
         ModelCommand::AddArguments();
     }
 
-    ~ReadBasicVendorID()
+    ~ReadBasicVendorName()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -5281,63 +6345,81 @@ class ReadBasicVendorID : public ModelCommand
 
         chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeVendorID(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeVendorName(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ProductName
- */
-class ReadBasicProductName : public ModelCommand
+class ReportBasicVendorName : public ModelCommand
 {
 public:
-    ReadBasicProductName() : ModelCommand("read")
+    ReportBasicVendorName() : ModelCommand("report")
     {
-        AddArgument("attr-name", "product-name");
-        ModelCommand::AddArguments();
+        AddArgument("attr-name", "vendor-name");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
     }
 
-    ~ReadBasicProductName()
+    ~ReportBasicVendorName()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeProductName(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeVendorName(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeVendorName(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ProductID
+ * Attribute VendorID
  */
-class ReadBasicProductID : public ModelCommand
+class ReadBasicVendorID : public ModelCommand
 {
 public:
-    ReadBasicProductID() : ModelCommand("read")
+    ReadBasicVendorID() : ModelCommand("read")
     {
-        AddArgument("attr-name", "product-id");
+        AddArgument("attr-name", "vendor-id");
         ModelCommand::AddArguments();
     }
 
-    ~ReadBasicProductID()
+    ~ReadBasicVendorID()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -5349,7 +6431,7 @@ class ReadBasicProductID : public ModelCommand
 
         chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeProductID(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeVendorID(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -5359,86 +6441,71 @@ class ReadBasicProductID : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute UserLabel
- */
-class ReadBasicUserLabel : public ModelCommand
+class ReportBasicVendorID : public ModelCommand
 {
 public:
-    ReadBasicUserLabel() : ModelCommand("read")
+    ReportBasicVendorID() : ModelCommand("report")
     {
-        AddArgument("attr-name", "user-label");
+        AddArgument("attr-name", "vendor-id");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadBasicUserLabel()
+    ~ReportBasicVendorID()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeUserLabel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
-    }
-
-private:
-    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-};
 
-class WriteBasicUserLabel : public ModelCommand
-{
-public:
-    WriteBasicUserLabel() : ModelCommand("write")
-    {
-        AddArgument("attr-name", "user-label");
-        AddArgument("attr-value", &mValue);
-        ModelCommand::AddArguments();
-    }
+        ReturnErrorOnFailure(cluster.ReportAttributeVendorID(onReportCallback->Cancel()));
 
-    ~WriteBasicUserLabel()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeVendorID(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x01) on endpoint %" PRIu8, endpointId);
-
-        chip::Controller::BasicCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeUserLabel(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::CharSpan mValue;
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute Location
+ * Attribute ProductName
  */
-class ReadBasicLocation : public ModelCommand
+class ReadBasicProductName : public ModelCommand
 {
 public:
-    ReadBasicLocation() : ModelCommand("read")
+    ReadBasicProductName() : ModelCommand("read")
     {
-        AddArgument("attr-name", "location");
+        AddArgument("attr-name", "product-name");
         ModelCommand::AddArguments();
     }
 
-    ~ReadBasicLocation()
+    ~ReadBasicProductName()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -5450,7 +6517,7 @@ class ReadBasicLocation : public ModelCommand
 
         chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeLocation(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeProductName(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -5460,52 +6527,71 @@ class ReadBasicLocation : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteBasicLocation : public ModelCommand
+class ReportBasicProductName : public ModelCommand
 {
 public:
-    WriteBasicLocation() : ModelCommand("write")
+    ReportBasicProductName() : ModelCommand("report")
     {
-        AddArgument("attr-name", "location");
-        AddArgument("attr-value", &mValue);
+        AddArgument("attr-name", "product-name");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteBasicLocation()
+    ~ReportBasicProductName()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeLocation(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeProductName(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeProductName(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::CharSpan mValue;
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute HardwareVersion
+ * Attribute ProductID
  */
-class ReadBasicHardwareVersion : public ModelCommand
+class ReadBasicProductID : public ModelCommand
 {
 public:
-    ReadBasicHardwareVersion() : ModelCommand("read")
+    ReadBasicProductID() : ModelCommand("read")
     {
-        AddArgument("attr-name", "hardware-version");
+        AddArgument("attr-name", "product-id");
         ModelCommand::AddArguments();
     }
 
-    ~ReadBasicHardwareVersion()
+    ~ReadBasicProductID()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -5517,7 +6603,7 @@ class ReadBasicHardwareVersion : public ModelCommand
 
         chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeHardwareVersion(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeProductID(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -5527,87 +6613,71 @@ class ReadBasicHardwareVersion : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute HardwareVersionString
- */
-class ReadBasicHardwareVersionString : public ModelCommand
+class ReportBasicProductID : public ModelCommand
 {
 public:
-    ReadBasicHardwareVersionString() : ModelCommand("read")
+    ReportBasicProductID() : ModelCommand("report")
     {
-        AddArgument("attr-name", "hardware-version-string");
+        AddArgument("attr-name", "product-id");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadBasicHardwareVersionString()
+    ~ReportBasicProductID()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeHardwareVersionString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
-    }
-
-private:
-    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-};
 
-/*
- * Attribute SoftwareVersion
- */
-class ReadBasicSoftwareVersion : public ModelCommand
-{
-public:
-    ReadBasicSoftwareVersion() : ModelCommand("read")
-    {
-        AddArgument("attr-name", "software-version");
-        ModelCommand::AddArguments();
-    }
+        ReturnErrorOnFailure(cluster.ReportAttributeProductID(onReportCallback->Cancel()));
 
-    ~ReadBasicSoftwareVersion()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeProductID(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
-
-        chip::Controller::BasicCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeSoftwareVersion(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute SoftwareVersionString
+ * Attribute UserLabel
  */
-class ReadBasicSoftwareVersionString : public ModelCommand
+class ReadBasicUserLabel : public ModelCommand
 {
 public:
-    ReadBasicSoftwareVersionString() : ModelCommand("read")
+    ReadBasicUserLabel() : ModelCommand("read")
     {
-        AddArgument("attr-name", "software-version-string");
+        AddArgument("attr-name", "user-label");
         ModelCommand::AddArguments();
     }
 
-    ~ReadBasicSoftwareVersionString()
+    ~ReadBasicUserLabel()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -5619,7 +6689,7 @@ class ReadBasicSoftwareVersionString : public ModelCommand
 
         chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeSoftwareVersionString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeUserLabel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -5629,19 +6699,17 @@ class ReadBasicSoftwareVersionString : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ManufacturingDate
- */
-class ReadBasicManufacturingDate : public ModelCommand
+class WriteBasicUserLabel : public ModelCommand
 {
 public:
-    ReadBasicManufacturingDate() : ModelCommand("read")
+    WriteBasicUserLabel() : ModelCommand("write")
     {
-        AddArgument("attr-name", "manufacturing-date");
+        AddArgument("attr-name", "user-label");
+        AddArgument("attr-value", &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadBasicManufacturingDate()
+    ~WriteBasicUserLabel()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -5649,67 +6717,86 @@ class ReadBasicManufacturingDate : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x01) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeManufacturingDate(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeUserLabel(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::CharSpan mValue;
 };
 
-/*
- * Attribute PartNumber
- */
-class ReadBasicPartNumber : public ModelCommand
+class ReportBasicUserLabel : public ModelCommand
 {
 public:
-    ReadBasicPartNumber() : ModelCommand("read")
+    ReportBasicUserLabel() : ModelCommand("report")
     {
-        AddArgument("attr-name", "part-number");
+        AddArgument("attr-name", "user-label");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadBasicPartNumber()
+    ~ReportBasicUserLabel()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePartNumber(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeUserLabel(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeUserLabel(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ProductURL
+ * Attribute Location
  */
-class ReadBasicProductURL : public ModelCommand
+class ReadBasicLocation : public ModelCommand
 {
 public:
-    ReadBasicProductURL() : ModelCommand("read")
+    ReadBasicLocation() : ModelCommand("read")
     {
-        AddArgument("attr-name", "product-url");
+        AddArgument("attr-name", "location");
         ModelCommand::AddArguments();
     }
 
-    ~ReadBasicProductURL()
+    ~ReadBasicLocation()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -5721,7 +6808,7 @@ class ReadBasicProductURL : public ModelCommand
 
         chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeProductURL(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeLocation(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -5731,19 +6818,17 @@ class ReadBasicProductURL : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ProductLabel
- */
-class ReadBasicProductLabel : public ModelCommand
+class WriteBasicLocation : public ModelCommand
 {
 public:
-    ReadBasicProductLabel() : ModelCommand("read")
+    WriteBasicLocation() : ModelCommand("write")
     {
-        AddArgument("attr-name", "product-label");
+        AddArgument("attr-name", "location");
+        AddArgument("attr-value", &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadBasicProductLabel()
+    ~WriteBasicLocation()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -5751,67 +6836,86 @@ class ReadBasicProductLabel : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x01) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeProductLabel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeLocation(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::CharSpan mValue;
 };
 
-/*
- * Attribute SerialNumber
- */
-class ReadBasicSerialNumber : public ModelCommand
+class ReportBasicLocation : public ModelCommand
 {
 public:
-    ReadBasicSerialNumber() : ModelCommand("read")
+    ReportBasicLocation() : ModelCommand("report")
     {
-        AddArgument("attr-name", "serial-number");
+        AddArgument("attr-name", "location");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadBasicSerialNumber()
+    ~ReportBasicLocation()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeSerialNumber(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeLocation(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeLocation(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute LocalConfigDisabled
+ * Attribute HardwareVersion
  */
-class ReadBasicLocalConfigDisabled : public ModelCommand
+class ReadBasicHardwareVersion : public ModelCommand
 {
 public:
-    ReadBasicLocalConfigDisabled() : ModelCommand("read")
+    ReadBasicHardwareVersion() : ModelCommand("read")
     {
-        AddArgument("attr-name", "local-config-disabled");
+        AddArgument("attr-name", "hardware-version");
         ModelCommand::AddArguments();
     }
 
-    ~ReadBasicLocalConfigDisabled()
+    ~ReadBasicHardwareVersion()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -5823,62 +6927,81 @@ class ReadBasicLocalConfigDisabled : public ModelCommand
 
         chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeLocalConfigDisabled(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeHardwareVersion(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteBasicLocalConfigDisabled : public ModelCommand
+class ReportBasicHardwareVersion : public ModelCommand
 {
 public:
-    WriteBasicLocalConfigDisabled() : ModelCommand("write")
+    ReportBasicHardwareVersion() : ModelCommand("report")
     {
-        AddArgument("attr-name", "local-config-disabled");
-        AddArgument("attr-value", 0, 1, &mValue);
+        AddArgument("attr-name", "hardware-version");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteBasicLocalConfigDisabled()
+    ~ReportBasicHardwareVersion()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeLocalConfigDisabled(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeHardwareVersion(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeHardwareVersion(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    bool mValue;
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute Reachable
+ * Attribute HardwareVersionString
  */
-class ReadBasicReachable : public ModelCommand
+class ReadBasicHardwareVersionString : public ModelCommand
 {
 public:
-    ReadBasicReachable() : ModelCommand("read")
+    ReadBasicHardwareVersionString() : ModelCommand("read")
     {
-        AddArgument("attr-name", "reachable");
+        AddArgument("attr-name", "hardware-version-string");
         ModelCommand::AddArguments();
     }
 
-    ~ReadBasicReachable()
+    ~ReadBasicHardwareVersionString()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -5890,75 +7013,82 @@ class ReadBasicReachable : public ModelCommand
 
         chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeReachable(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeHardwareVersionString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadBasicClusterRevision : public ModelCommand
+class ReportBasicHardwareVersionString : public ModelCommand
 {
 public:
-    ReadBasicClusterRevision() : ModelCommand("read")
+    ReportBasicHardwareVersionString() : ModelCommand("report")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "hardware-version-string");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadBasicClusterRevision()
+    ~ReportBasicHardwareVersionString()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeHardwareVersionString(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeHardwareVersionString(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                               mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster BinaryInputBasic                                            | 0x000F |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * OutOfService                                                      | 0x0051 |
-| * PresentValue                                                      | 0x0055 |
-| * StatusFlags                                                       | 0x006F |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
 /*
- * Attribute OutOfService
+ * Attribute SoftwareVersion
  */
-class ReadBinaryInputBasicOutOfService : public ModelCommand
+class ReadBasicSoftwareVersion : public ModelCommand
 {
 public:
-    ReadBinaryInputBasicOutOfService() : ModelCommand("read")
+    ReadBasicSoftwareVersion() : ModelCommand("read")
     {
-        AddArgument("attr-name", "out-of-service");
+        AddArgument("attr-name", "software-version");
         ModelCommand::AddArguments();
     }
 
-    ~ReadBinaryInputBasicOutOfService()
+    ~ReadBasicSoftwareVersion()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -5966,66 +7096,85 @@ class ReadBinaryInputBasicOutOfService : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x000F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::BinaryInputBasicCluster cluster;
+        chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOutOfService(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeSoftwareVersion(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteBinaryInputBasicOutOfService : public ModelCommand
+class ReportBasicSoftwareVersion : public ModelCommand
 {
 public:
-    WriteBinaryInputBasicOutOfService() : ModelCommand("write")
+    ReportBasicSoftwareVersion() : ModelCommand("report")
     {
-        AddArgument("attr-name", "out-of-service");
-        AddArgument("attr-value", 0, 1, &mValue);
+        AddArgument("attr-name", "software-version");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteBinaryInputBasicOutOfService()
+    ~ReportBasicSoftwareVersion()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x000F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::BinaryInputBasicCluster cluster;
+        chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeOutOfService(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeSoftwareVersion(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeSoftwareVersion(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    bool mValue;
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute PresentValue
+ * Attribute SoftwareVersionString
  */
-class ReadBinaryInputBasicPresentValue : public ModelCommand
+class ReadBasicSoftwareVersionString : public ModelCommand
 {
 public:
-    ReadBinaryInputBasicPresentValue() : ModelCommand("read")
+    ReadBasicSoftwareVersionString() : ModelCommand("read")
     {
-        AddArgument("attr-name", "present-value");
+        AddArgument("attr-name", "software-version-string");
         ModelCommand::AddArguments();
     }
 
-    ~ReadBinaryInputBasicPresentValue()
+    ~ReadBasicSoftwareVersionString()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -6033,66 +7182,120 @@ class ReadBinaryInputBasicPresentValue : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x000F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::BinaryInputBasicCluster cluster;
+        chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePresentValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeSoftwareVersionString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteBinaryInputBasicPresentValue : public ModelCommand
+class ReportBasicSoftwareVersionString : public ModelCommand
 {
 public:
-    WriteBinaryInputBasicPresentValue() : ModelCommand("write")
+    ReportBasicSoftwareVersionString() : ModelCommand("report")
     {
-        AddArgument("attr-name", "present-value");
-        AddArgument("attr-value", 0, 1, &mValue);
-        ModelCommand::AddArguments();
-    }
-
-    ~WriteBinaryInputBasicPresentValue()
+        AddArgument("attr-name", "software-version-string");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportBasicSoftwareVersionString()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x000F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::BinaryInputBasicCluster cluster;
+        chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributePresentValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeSoftwareVersionString(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeSoftwareVersionString(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                               mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    bool mValue;
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-class ReportBinaryInputBasicPresentValue : public ModelCommand
+/*
+ * Attribute ManufacturingDate
+ */
+class ReadBasicManufacturingDate : public ModelCommand
 {
 public:
-    ReportBinaryInputBasicPresentValue() : ModelCommand("report")
+    ReadBasicManufacturingDate() : ModelCommand("read")
     {
-        AddArgument("attr-name", "present-value");
+        AddArgument("attr-name", "manufacturing-date");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadBasicManufacturingDate()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::BasicCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeManufacturingDate(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportBasicManufacturingDate : public ModelCommand
+{
+public:
+    ReportBasicManufacturingDate() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "manufacturing-date");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportBinaryInputBasicPresentValue()
+    ~ReportBasicManufacturingDate()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -6102,15 +7305,16 @@ class ReportBinaryInputBasicPresentValue : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x000F) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::BinaryInputBasicCluster cluster;
+        chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributePresentValue(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeManufacturingDate(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributePresentValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeManufacturingDate(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -6125,26 +7329,26 @@ class ReportBinaryInputBasicPresentValue : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<BooleanAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeReport, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
     uint16_t mMinInterval;
     uint16_t mMaxInterval;
     bool mWait;
 };
 
 /*
- * Attribute StatusFlags
+ * Attribute PartNumber
  */
-class ReadBinaryInputBasicStatusFlags : public ModelCommand
+class ReadBasicPartNumber : public ModelCommand
 {
 public:
-    ReadBinaryInputBasicStatusFlags() : ModelCommand("read")
+    ReadBasicPartNumber() : ModelCommand("read")
     {
-        AddArgument("attr-name", "status-flags");
+        AddArgument("attr-name", "part-number");
         ModelCommand::AddArguments();
     }
 
-    ~ReadBinaryInputBasicStatusFlags()
+    ~ReadBasicPartNumber()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -6152,33 +7356,33 @@ class ReadBinaryInputBasicStatusFlags : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x000F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::BinaryInputBasicCluster cluster;
+        chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeStatusFlags(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePartNumber(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class ReportBinaryInputBasicStatusFlags : public ModelCommand
+class ReportBasicPartNumber : public ModelCommand
 {
 public:
-    ReportBinaryInputBasicStatusFlags() : ModelCommand("report")
+    ReportBasicPartNumber() : ModelCommand("report")
     {
-        AddArgument("attr-name", "status-flags");
+        AddArgument("attr-name", "part-number");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportBinaryInputBasicStatusFlags()
+    ~ReportBasicPartNumber()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -6188,15 +7392,15 @@ class ReportBinaryInputBasicStatusFlags : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x000F) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::BinaryInputBasicCluster cluster;
+        chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeStatusFlags(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributePartNumber(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeStatusFlags(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributePartNumber(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -6211,26 +7415,26 @@ class ReportBinaryInputBasicStatusFlags : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
     uint16_t mMinInterval;
     uint16_t mMaxInterval;
     bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute ProductURL
  */
-class ReadBinaryInputBasicClusterRevision : public ModelCommand
+class ReadBasicProductURL : public ModelCommand
 {
 public:
-    ReadBinaryInputBasicClusterRevision() : ModelCommand("read")
+    ReadBasicProductURL() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "product-url");
         ModelCommand::AddArguments();
     }
 
-    ~ReadBinaryInputBasicClusterRevision()
+    ~ReadBasicProductURL()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -6238,140 +7442,171 @@ class ReadBinaryInputBasicClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x000F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::BinaryInputBasicCluster cluster;
+        chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeProductURL(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster Binding                                                     | 0xF000 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * Bind                                                              |   0x00 |
-| * Unbind                                                            |   0x01 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Command Bind
- */
-class BindingBind : public ModelCommand
+class ReportBasicProductURL : public ModelCommand
 {
 public:
-    BindingBind() : ModelCommand("bind")
+    ReportBasicProductURL() : ModelCommand("report")
     {
-        AddArgument("NodeId", 0, UINT64_MAX, &mRequest.nodeId);
-        AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
-        AddArgument("EndpointId", 0, UINT16_MAX, &mRequest.endpointId);
-        AddArgument("ClusterId", 0, UINT32_MAX, &mRequest.clusterId);
+        AddArgument("attr-name", "product-url");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportBasicProductURL()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000F000) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::BasicCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeProductURL(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeProductURL(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::Binding::Commands::Bind::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command Unbind
+ * Attribute ProductLabel
  */
-class BindingUnbind : public ModelCommand
+class ReadBasicProductLabel : public ModelCommand
 {
 public:
-    BindingUnbind() : ModelCommand("unbind")
+    ReadBasicProductLabel() : ModelCommand("read")
     {
-        AddArgument("NodeId", 0, UINT64_MAX, &mRequest.nodeId);
-        AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
-        AddArgument("EndpointId", 0, UINT16_MAX, &mRequest.endpointId);
-        AddArgument("ClusterId", 0, UINT32_MAX, &mRequest.clusterId);
+        AddArgument("attr-name", "product-label");
         ModelCommand::AddArguments();
     }
 
+    ~ReadBasicProductLabel()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000F000) command (0x00000001) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::BasicCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeProductLabel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::Binding::Commands::Unbind::Type mRequest;
+    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadBindingClusterRevision : public ModelCommand
+class ReportBasicProductLabel : public ModelCommand
 {
 public:
-    ReadBindingClusterRevision() : ModelCommand("read")
+    ReportBasicProductLabel() : ModelCommand("report")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "product-label");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadBindingClusterRevision()
+    ~ReportBasicProductLabel()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0xF000) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::BindingCluster cluster;
+        chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeProductLabel(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeProductLabel(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster BooleanState                                                | 0x0045 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * StateValue                                                        | 0x0000 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
 /*
- * Attribute StateValue
+ * Attribute SerialNumber
  */
-class ReadBooleanStateStateValue : public ModelCommand
+class ReadBasicSerialNumber : public ModelCommand
 {
 public:
-    ReadBooleanStateStateValue() : ModelCommand("read")
+    ReadBasicSerialNumber() : ModelCommand("read")
     {
-        AddArgument("attr-name", "state-value");
+        AddArgument("attr-name", "serial-number");
         ModelCommand::AddArguments();
     }
 
-    ~ReadBooleanStateStateValue()
+    ~ReadBasicSerialNumber()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -6379,33 +7614,33 @@ class ReadBooleanStateStateValue : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0045) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::BooleanStateCluster cluster;
+        chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeStateValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeSerialNumber(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class ReportBooleanStateStateValue : public ModelCommand
+class ReportBasicSerialNumber : public ModelCommand
 {
 public:
-    ReportBooleanStateStateValue() : ModelCommand("report")
+    ReportBasicSerialNumber() : ModelCommand("report")
     {
-        AddArgument("attr-name", "state-value");
+        AddArgument("attr-name", "serial-number");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportBooleanStateStateValue()
+    ~ReportBasicSerialNumber()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -6415,15 +7650,15 @@ class ReportBooleanStateStateValue : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0045) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::BooleanStateCluster cluster;
+        chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeStateValue(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeSerialNumber(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeStateValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeSerialNumber(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -6438,26 +7673,26 @@ class ReportBooleanStateStateValue : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<BooleanAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeReport, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
     uint16_t mMinInterval;
     uint16_t mMaxInterval;
     bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute LocalConfigDisabled
  */
-class ReadBooleanStateClusterRevision : public ModelCommand
+class ReadBasicLocalConfigDisabled : public ModelCommand
 {
 public:
-    ReadBooleanStateClusterRevision() : ModelCommand("read")
+    ReadBasicLocalConfigDisabled() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "local-config-disabled");
         ModelCommand::AddArguments();
     }
 
-    ~ReadBooleanStateClusterRevision()
+    ~ReadBasicLocalConfigDisabled()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -6465,385 +7700,541 @@ class ReadBooleanStateClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0045) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::BooleanStateCluster cluster;
+        chip::Controller::BasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeLocalConfigDisabled(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster BridgedActions                                              | 0x0025 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * DisableAction                                                     |   0x0A |
-| * DisableActionWithDuration                                         |   0x0B |
-| * EnableAction                                                      |   0x08 |
-| * EnableActionWithDuration                                          |   0x09 |
-| * InstantAction                                                     |   0x00 |
-| * InstantActionWithTransition                                       |   0x01 |
-| * PauseAction                                                       |   0x05 |
-| * PauseActionWithDuration                                           |   0x06 |
-| * ResumeAction                                                      |   0x07 |
-| * StartAction                                                       |   0x02 |
-| * StartActionWithDuration                                           |   0x03 |
-| * StopAction                                                        |   0x04 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * ActionList                                                        | 0x0000 |
-| * EndpointList                                                      | 0x0001 |
-| * SetupUrl                                                          | 0x0002 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Command DisableAction
- */
-class BridgedActionsDisableAction : public ModelCommand
+class WriteBasicLocalConfigDisabled : public ModelCommand
 {
 public:
-    BridgedActionsDisableAction() : ModelCommand("disable-action")
+    WriteBasicLocalConfigDisabled() : ModelCommand("write")
     {
-        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
-        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
+        AddArgument("attr-name", "local-config-disabled");
+        AddArgument("attr-value", 0, 1, &mValue);
         ModelCommand::AddArguments();
     }
 
+    ~WriteBasicLocalConfigDisabled()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x0000000A) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::BasicCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeLocalConfigDisabled(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::app::Clusters::BridgedActions::Commands::DisableAction::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    bool mValue;
 };
 
-/*
- * Command DisableActionWithDuration
- */
-class BridgedActionsDisableActionWithDuration : public ModelCommand
+class ReportBasicLocalConfigDisabled : public ModelCommand
 {
 public:
-    BridgedActionsDisableActionWithDuration() : ModelCommand("disable-action-with-duration")
+    ReportBasicLocalConfigDisabled() : ModelCommand("report")
     {
-        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
-        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
-        AddArgument("Duration", 0, UINT32_MAX, &mRequest.duration);
+        AddArgument("attr-name", "local-config-disabled");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportBasicLocalConfigDisabled()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x0000000B) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::BasicCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeLocalConfigDisabled(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeLocalConfigDisabled(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                             mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::BridgedActions::Commands::DisableActionWithDuration::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command EnableAction
+ * Attribute Reachable
  */
-class BridgedActionsEnableAction : public ModelCommand
+class ReadBasicReachable : public ModelCommand
 {
 public:
-    BridgedActionsEnableAction() : ModelCommand("enable-action")
+    ReadBasicReachable() : ModelCommand("read")
     {
-        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
-        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
+        AddArgument("attr-name", "reachable");
         ModelCommand::AddArguments();
     }
 
+    ~ReadBasicReachable()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000008) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::BasicCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeReachable(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::BridgedActions::Commands::EnableAction::Type mRequest;
+    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command EnableActionWithDuration
- */
-class BridgedActionsEnableActionWithDuration : public ModelCommand
+class ReportBasicReachable : public ModelCommand
 {
 public:
-    BridgedActionsEnableActionWithDuration() : ModelCommand("enable-action-with-duration")
+    ReportBasicReachable() : ModelCommand("report")
     {
-        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
-        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
-        AddArgument("Duration", 0, UINT32_MAX, &mRequest.duration);
+        AddArgument("attr-name", "reachable");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportBasicReachable()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000009) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::BasicCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeReachable(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeReachable(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::BridgedActions::Commands::EnableActionWithDuration::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command InstantAction
+ * Attribute ClusterRevision
  */
-class BridgedActionsInstantAction : public ModelCommand
+class ReadBasicClusterRevision : public ModelCommand
 {
 public:
-    BridgedActionsInstantAction() : ModelCommand("instant-action")
+    ReadBasicClusterRevision() : ModelCommand("read")
     {
-        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
-        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
+        AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
+    ~ReadBasicClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::BasicCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::BridgedActions::Commands::InstantAction::Type mRequest;
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command InstantActionWithTransition
- */
-class BridgedActionsInstantActionWithTransition : public ModelCommand
+class ReportBasicClusterRevision : public ModelCommand
 {
 public:
-    BridgedActionsInstantActionWithTransition() : ModelCommand("instant-action-with-transition")
+    ReportBasicClusterRevision() : ModelCommand("report")
     {
-        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
-        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
-        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    ~ReportBasicClusterRevision()
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000001) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
-    }
-
-private:
-    chip::app::Clusters::BridgedActions::Commands::InstantActionWithTransition::Type mRequest;
-};
-
-/*
- * Command PauseAction
- */
-class BridgedActionsPauseAction : public ModelCommand
-{
-public:
-    BridgedActionsPauseAction() : ModelCommand("pause-action")
-    {
-        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
-        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
-        ModelCommand::AddArguments();
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000005) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0028) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::BasicCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::BridgedActions::Commands::PauseAction::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
+/*----------------------------------------------------------------------------*\
+| Cluster BinaryInputBasic                                            | 0x000F |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * OutOfService                                                      | 0x0051 |
+| * PresentValue                                                      | 0x0055 |
+| * StatusFlags                                                       | 0x006F |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
 /*
- * Command PauseActionWithDuration
+ * Attribute OutOfService
  */
-class BridgedActionsPauseActionWithDuration : public ModelCommand
+class ReadBinaryInputBasicOutOfService : public ModelCommand
 {
 public:
-    BridgedActionsPauseActionWithDuration() : ModelCommand("pause-action-with-duration")
+    ReadBinaryInputBasicOutOfService() : ModelCommand("read")
     {
-        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
-        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
-        AddArgument("Duration", 0, UINT32_MAX, &mRequest.duration);
+        AddArgument("attr-name", "out-of-service");
         ModelCommand::AddArguments();
     }
 
+    ~ReadBinaryInputBasicOutOfService()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000006) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x000F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::BinaryInputBasicCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeOutOfService(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::BridgedActions::Commands::PauseActionWithDuration::Type mRequest;
+    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command ResumeAction
- */
-class BridgedActionsResumeAction : public ModelCommand
+class WriteBinaryInputBasicOutOfService : public ModelCommand
 {
 public:
-    BridgedActionsResumeAction() : ModelCommand("resume-action")
+    WriteBinaryInputBasicOutOfService() : ModelCommand("write")
     {
-        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
-        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
+        AddArgument("attr-name", "out-of-service");
+        AddArgument("attr-value", 0, 1, &mValue);
         ModelCommand::AddArguments();
     }
 
+    ~WriteBinaryInputBasicOutOfService()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000007) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x000F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::BinaryInputBasicCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeOutOfService(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::app::Clusters::BridgedActions::Commands::ResumeAction::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    bool mValue;
 };
 
-/*
- * Command StartAction
- */
-class BridgedActionsStartAction : public ModelCommand
+class ReportBinaryInputBasicOutOfService : public ModelCommand
 {
 public:
-    BridgedActionsStartAction() : ModelCommand("start-action")
+    ReportBinaryInputBasicOutOfService() : ModelCommand("report")
     {
-        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
-        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
+        AddArgument("attr-name", "out-of-service");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportBinaryInputBasicOutOfService()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000002) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x000F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::BinaryInputBasicCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOutOfService(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOutOfService(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::BridgedActions::Commands::StartAction::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command StartActionWithDuration
+ * Attribute PresentValue
  */
-class BridgedActionsStartActionWithDuration : public ModelCommand
+class ReadBinaryInputBasicPresentValue : public ModelCommand
 {
 public:
-    BridgedActionsStartActionWithDuration() : ModelCommand("start-action-with-duration")
+    ReadBinaryInputBasicPresentValue() : ModelCommand("read")
     {
-        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
-        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
-        AddArgument("Duration", 0, UINT32_MAX, &mRequest.duration);
+        AddArgument("attr-name", "present-value");
         ModelCommand::AddArguments();
     }
 
+    ~ReadBinaryInputBasicPresentValue()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000003) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x000F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::BinaryInputBasicCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributePresentValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::BridgedActions::Commands::StartActionWithDuration::Type mRequest;
+    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command StopAction
- */
-class BridgedActionsStopAction : public ModelCommand
+class WriteBinaryInputBasicPresentValue : public ModelCommand
 {
 public:
-    BridgedActionsStopAction() : ModelCommand("stop-action")
+    WriteBinaryInputBasicPresentValue() : ModelCommand("write")
     {
-        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
-        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
+        AddArgument("attr-name", "present-value");
+        AddArgument("attr-value", 0, 1, &mValue);
         ModelCommand::AddArguments();
     }
 
+    ~WriteBinaryInputBasicPresentValue()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000004) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x000F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::BinaryInputBasicCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributePresentValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::app::Clusters::BridgedActions::Commands::StopAction::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    bool mValue;
 };
 
-/*
- * Attribute ActionList
- */
-class ReadBridgedActionsActionList : public ModelCommand
+class ReportBinaryInputBasicPresentValue : public ModelCommand
 {
 public:
-    ReadBridgedActionsActionList() : ModelCommand("read")
+    ReportBinaryInputBasicPresentValue() : ModelCommand("report")
     {
-        AddArgument("attr-name", "action-list");
+        AddArgument("attr-name", "present-value");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadBridgedActionsActionList()
+    ~ReportBinaryInputBasicPresentValue()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0025) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x000F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::BridgedActionsCluster cluster;
+        chip::Controller::BinaryInputBasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeActionList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributePresentValue(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePresentValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<BridgedActionsActionListListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<BridgedActionsActionListListAttributeCallback>(OnBridgedActionsActionListListAttributeResponse,
-                                                                                    this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute EndpointList
+ * Attribute StatusFlags
  */
-class ReadBridgedActionsEndpointList : public ModelCommand
+class ReadBinaryInputBasicStatusFlags : public ModelCommand
 {
 public:
-    ReadBridgedActionsEndpointList() : ModelCommand("read")
+    ReadBinaryInputBasicStatusFlags() : ModelCommand("read")
     {
-        AddArgument("attr-name", "endpoint-list");
+        AddArgument("attr-name", "status-flags");
         ModelCommand::AddArguments();
     }
 
-    ~ReadBridgedActionsEndpointList()
+    ~ReadBinaryInputBasicStatusFlags()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -6851,68 +8242,85 @@ class ReadBridgedActionsEndpointList : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0025) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x000F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::BridgedActionsCluster cluster;
+        chip::Controller::BinaryInputBasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeEndpointList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeStatusFlags(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<BridgedActionsEndpointListListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<BridgedActionsEndpointListListAttributeCallback>(
-            OnBridgedActionsEndpointListListAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute SetupUrl
- */
-class ReadBridgedActionsSetupUrl : public ModelCommand
+class ReportBinaryInputBasicStatusFlags : public ModelCommand
 {
 public:
-    ReadBridgedActionsSetupUrl() : ModelCommand("read")
+    ReportBinaryInputBasicStatusFlags() : ModelCommand("report")
     {
-        AddArgument("attr-name", "setup-url");
+        AddArgument("attr-name", "status-flags");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadBridgedActionsSetupUrl()
+    ~ReportBinaryInputBasicStatusFlags()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0025) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x000F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::BridgedActionsCluster cluster;
+        chip::Controller::BinaryInputBasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeSetupUrl(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeStatusFlags(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeStatusFlags(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
  * Attribute ClusterRevision
  */
-class ReadBridgedActionsClusterRevision : public ModelCommand
+class ReadBinaryInputBasicClusterRevision : public ModelCommand
 {
 public:
-    ReadBridgedActionsClusterRevision() : ModelCommand("read")
+    ReadBinaryInputBasicClusterRevision() : ModelCommand("read")
     {
         AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
-    ~ReadBridgedActionsClusterRevision()
+    ~ReadBinaryInputBasicClusterRevision()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -6920,9 +8328,9 @@ class ReadBridgedActionsClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0025) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x000F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::BridgedActionsCluster cluster;
+        chip::Controller::BinaryInputBasicCluster cluster;
         cluster.Associate(device, endpointId);
         return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
@@ -6934,665 +8342,719 @@ class ReadBridgedActionsClusterRevision : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster BridgedDeviceBasicInformation                               | 0x0039 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Attribute ClusterRevision
- */
-class ReadBridgedDeviceBasicInformationClusterRevision : public ModelCommand
+class ReportBinaryInputBasicClusterRevision : public ModelCommand
 {
 public:
-    ReadBridgedDeviceBasicInformationClusterRevision() : ModelCommand("read")
+    ReportBinaryInputBasicClusterRevision() : ModelCommand("report")
     {
         AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadBridgedDeviceBasicInformationClusterRevision()
+    ~ReportBinaryInputBasicClusterRevision()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0039) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x000F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::BridgedDeviceBasicInformationCluster cluster;
+        chip::Controller::BinaryInputBasicCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*----------------------------------------------------------------------------*\
-| Cluster ColorControl                                                | 0x0300 |
+| Cluster Binding                                                     | 0xF000 |
 |------------------------------------------------------------------------------|
 | Commands:                                                           |        |
-| * ColorLoopSet                                                      |   0x44 |
-| * EnhancedMoveHue                                                   |   0x41 |
-| * EnhancedMoveToHue                                                 |   0x40 |
-| * EnhancedMoveToHueAndSaturation                                    |   0x43 |
-| * EnhancedStepHue                                                   |   0x42 |
-| * MoveColor                                                         |   0x08 |
-| * MoveColorTemperature                                              |   0x4B |
-| * MoveHue                                                           |   0x01 |
-| * MoveSaturation                                                    |   0x04 |
-| * MoveToColor                                                       |   0x07 |
-| * MoveToColorTemperature                                            |   0x0A |
-| * MoveToHue                                                         |   0x00 |
-| * MoveToHueAndSaturation                                            |   0x06 |
-| * MoveToSaturation                                                  |   0x03 |
-| * StepColor                                                         |   0x09 |
-| * StepColorTemperature                                              |   0x4C |
-| * StepHue                                                           |   0x02 |
-| * StepSaturation                                                    |   0x05 |
-| * StopMoveStep                                                      |   0x47 |
+| * Bind                                                              |   0x00 |
+| * Unbind                                                            |   0x01 |
 |------------------------------------------------------------------------------|
 | Attributes:                                                         |        |
-| * CurrentHue                                                        | 0x0000 |
-| * CurrentSaturation                                                 | 0x0001 |
-| * RemainingTime                                                     | 0x0002 |
-| * CurrentX                                                          | 0x0003 |
-| * CurrentY                                                          | 0x0004 |
-| * DriftCompensation                                                 | 0x0005 |
-| * CompensationText                                                  | 0x0006 |
-| * ColorTemperature                                                  | 0x0007 |
-| * ColorMode                                                         | 0x0008 |
-| * ColorControlOptions                                               | 0x000F |
-| * NumberOfPrimaries                                                 | 0x0010 |
-| * Primary1X                                                         | 0x0011 |
-| * Primary1Y                                                         | 0x0012 |
-| * Primary1Intensity                                                 | 0x0013 |
-| * Primary2X                                                         | 0x0015 |
-| * Primary2Y                                                         | 0x0016 |
-| * Primary2Intensity                                                 | 0x0017 |
-| * Primary3X                                                         | 0x0019 |
-| * Primary3Y                                                         | 0x001A |
-| * Primary3Intensity                                                 | 0x001B |
-| * Primary4X                                                         | 0x0020 |
-| * Primary4Y                                                         | 0x0021 |
-| * Primary4Intensity                                                 | 0x0022 |
-| * Primary5X                                                         | 0x0024 |
-| * Primary5Y                                                         | 0x0025 |
-| * Primary5Intensity                                                 | 0x0026 |
-| * Primary6X                                                         | 0x0028 |
-| * Primary6Y                                                         | 0x0029 |
-| * Primary6Intensity                                                 | 0x002A |
-| * WhitePointX                                                       | 0x0030 |
-| * WhitePointY                                                       | 0x0031 |
-| * ColorPointRX                                                      | 0x0032 |
-| * ColorPointRY                                                      | 0x0033 |
-| * ColorPointRIntensity                                              | 0x0034 |
-| * ColorPointGX                                                      | 0x0036 |
-| * ColorPointGY                                                      | 0x0037 |
-| * ColorPointGIntensity                                              | 0x0038 |
-| * ColorPointBX                                                      | 0x003A |
-| * ColorPointBY                                                      | 0x003B |
-| * ColorPointBIntensity                                              | 0x003C |
-| * EnhancedCurrentHue                                                | 0x4000 |
-| * EnhancedColorMode                                                 | 0x4001 |
-| * ColorLoopActive                                                   | 0x4002 |
-| * ColorLoopDirection                                                | 0x4003 |
-| * ColorLoopTime                                                     | 0x4004 |
-| * ColorLoopStartEnhancedHue                                         | 0x4005 |
-| * ColorLoopStoredEnhancedHue                                        | 0x4006 |
-| * ColorCapabilities                                                 | 0x400A |
-| * ColorTempPhysicalMin                                              | 0x400B |
-| * ColorTempPhysicalMax                                              | 0x400C |
-| * CoupleColorTempToLevelMinMireds                                   | 0x400D |
-| * StartUpColorTemperatureMireds                                     | 0x4010 |
 | * ClusterRevision                                                   | 0xFFFD |
 \*----------------------------------------------------------------------------*/
 
 /*
- * Command ColorLoopSet
+ * Command Bind
  */
-class ColorControlColorLoopSet : public ModelCommand
+class BindingBind : public ModelCommand
 {
 public:
-    ColorControlColorLoopSet() : ModelCommand("color-loop-set")
+    BindingBind() : ModelCommand("bind")
     {
-        AddArgument("UpdateFlags", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<chip::app::Clusters::ColorControl::ColorLoopUpdateFlags> *>(
-                        &mRequest.updateFlags));
-        AddArgument("Action", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.action)> *>(&mRequest.action));
-        AddArgument("Direction", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.direction)> *>(&mRequest.direction));
-        AddArgument("Time", 0, UINT16_MAX, &mRequest.time);
-        AddArgument("StartHue", 0, UINT16_MAX, &mRequest.startHue);
-        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
-        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
+        AddArgument("NodeId", 0, UINT64_MAX, &mRequest.nodeId);
+        AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
+        AddArgument("EndpointId", 0, UINT16_MAX, &mRequest.endpointId);
+        AddArgument("ClusterId", 0, UINT32_MAX, &mRequest.clusterId);
         ModelCommand::AddArguments();
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000044) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0000F000) command (0x00000000) on endpoint %" PRIu8, endpointId);
 
         return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::ColorControl::Commands::ColorLoopSet::Type mRequest;
+    chip::app::Clusters::Binding::Commands::Bind::Type mRequest;
 };
 
 /*
- * Command EnhancedMoveHue
+ * Command Unbind
  */
-class ColorControlEnhancedMoveHue : public ModelCommand
+class BindingUnbind : public ModelCommand
 {
 public:
-    ColorControlEnhancedMoveHue() : ModelCommand("enhanced-move-hue")
+    BindingUnbind() : ModelCommand("unbind")
     {
-        AddArgument("MoveMode", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.moveMode)> *>(&mRequest.moveMode));
-        AddArgument("Rate", 0, UINT16_MAX, &mRequest.rate);
-        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
-        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
+        AddArgument("NodeId", 0, UINT64_MAX, &mRequest.nodeId);
+        AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
+        AddArgument("EndpointId", 0, UINT16_MAX, &mRequest.endpointId);
+        AddArgument("ClusterId", 0, UINT32_MAX, &mRequest.clusterId);
         ModelCommand::AddArguments();
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000041) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0000F000) command (0x00000001) on endpoint %" PRIu8, endpointId);
 
         return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::ColorControl::Commands::EnhancedMoveHue::Type mRequest;
+    chip::app::Clusters::Binding::Commands::Unbind::Type mRequest;
 };
 
 /*
- * Command EnhancedMoveToHue
+ * Attribute ClusterRevision
  */
-class ColorControlEnhancedMoveToHue : public ModelCommand
+class ReadBindingClusterRevision : public ModelCommand
 {
 public:
-    ColorControlEnhancedMoveToHue() : ModelCommand("enhanced-move-to-hue")
+    ReadBindingClusterRevision() : ModelCommand("read")
     {
-        AddArgument("EnhancedHue", 0, UINT16_MAX, &mRequest.enhancedHue);
-        AddArgument("Direction", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.direction)> *>(&mRequest.direction));
-        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
-        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
-        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
+        AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    ~ReadBindingClusterRevision()
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000040) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        delete onSuccessCallback;
+        delete onFailureCallback;
     }
 
-private:
-    chip::app::Clusters::ColorControl::Commands::EnhancedMoveToHue::Type mRequest;
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0xF000) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::BindingCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command EnhancedMoveToHueAndSaturation
- */
-class ColorControlEnhancedMoveToHueAndSaturation : public ModelCommand
+class ReportBindingClusterRevision : public ModelCommand
 {
 public:
-    ColorControlEnhancedMoveToHueAndSaturation() : ModelCommand("enhanced-move-to-hue-and-saturation")
+    ReportBindingClusterRevision() : ModelCommand("report")
     {
-        AddArgument("EnhancedHue", 0, UINT16_MAX, &mRequest.enhancedHue);
-        AddArgument("Saturation", 0, UINT8_MAX, &mRequest.saturation);
-        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
-        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
-        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportBindingClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000043) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0xF000) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::BindingCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::ColorControl::Commands::EnhancedMoveToHueAndSaturation::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
+/*----------------------------------------------------------------------------*\
+| Cluster BooleanState                                                | 0x0045 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * StateValue                                                        | 0x0000 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
 /*
- * Command EnhancedStepHue
+ * Attribute StateValue
  */
-class ColorControlEnhancedStepHue : public ModelCommand
+class ReadBooleanStateStateValue : public ModelCommand
 {
 public:
-    ColorControlEnhancedStepHue() : ModelCommand("enhanced-step-hue")
+    ReadBooleanStateStateValue() : ModelCommand("read")
     {
-        AddArgument("StepMode", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.stepMode)> *>(&mRequest.stepMode));
-        AddArgument("StepSize", 0, UINT16_MAX, &mRequest.stepSize);
-        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
-        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
-        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
+        AddArgument("attr-name", "state-value");
         ModelCommand::AddArguments();
     }
 
+    ~ReadBooleanStateStateValue()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000042) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0045) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::BooleanStateCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeStateValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::ColorControl::Commands::EnhancedStepHue::Type mRequest;
+    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command MoveColor
- */
-class ColorControlMoveColor : public ModelCommand
+class ReportBooleanStateStateValue : public ModelCommand
 {
 public:
-    ColorControlMoveColor() : ModelCommand("move-color")
+    ReportBooleanStateStateValue() : ModelCommand("report")
     {
-        AddArgument("RateX", INT16_MIN, INT16_MAX, &mRequest.rateX);
-        AddArgument("RateY", INT16_MIN, INT16_MAX, &mRequest.rateY);
-        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
-        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
+        AddArgument("attr-name", "state-value");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportBooleanStateStateValue()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000008) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0045) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::BooleanStateCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeStateValue(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeStateValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::ColorControl::Commands::MoveColor::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command MoveColorTemperature
+ * Attribute ClusterRevision
  */
-class ColorControlMoveColorTemperature : public ModelCommand
+class ReadBooleanStateClusterRevision : public ModelCommand
 {
 public:
-    ColorControlMoveColorTemperature() : ModelCommand("move-color-temperature")
+    ReadBooleanStateClusterRevision() : ModelCommand("read")
     {
-        AddArgument("MoveMode", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.moveMode)> *>(&mRequest.moveMode));
-        AddArgument("Rate", 0, UINT16_MAX, &mRequest.rate);
-        AddArgument("ColorTemperatureMinimum", 0, UINT16_MAX, &mRequest.colorTemperatureMinimum);
-        AddArgument("ColorTemperatureMaximum", 0, UINT16_MAX, &mRequest.colorTemperatureMaximum);
-        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
-        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
+        AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
+    ~ReadBooleanStateClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x0000004B) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0045) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::BooleanStateCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::ColorControl::Commands::MoveColorTemperature::Type mRequest;
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportBooleanStateClusterRevision : public ModelCommand
+{
+public:
+    ReportBooleanStateClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportBooleanStateClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0045) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::BooleanStateCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
+/*----------------------------------------------------------------------------*\
+| Cluster BridgedActions                                              | 0x0025 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * DisableAction                                                     |   0x0A |
+| * DisableActionWithDuration                                         |   0x0B |
+| * EnableAction                                                      |   0x08 |
+| * EnableActionWithDuration                                          |   0x09 |
+| * InstantAction                                                     |   0x00 |
+| * InstantActionWithTransition                                       |   0x01 |
+| * PauseAction                                                       |   0x05 |
+| * PauseActionWithDuration                                           |   0x06 |
+| * ResumeAction                                                      |   0x07 |
+| * StartAction                                                       |   0x02 |
+| * StartActionWithDuration                                           |   0x03 |
+| * StopAction                                                        |   0x04 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * ActionList                                                        | 0x0000 |
+| * EndpointList                                                      | 0x0001 |
+| * SetupUrl                                                          | 0x0002 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
 /*
- * Command MoveHue
+ * Command DisableAction
  */
-class ColorControlMoveHue : public ModelCommand
+class BridgedActionsDisableAction : public ModelCommand
 {
 public:
-    ColorControlMoveHue() : ModelCommand("move-hue")
+    BridgedActionsDisableAction() : ModelCommand("disable-action")
     {
-        AddArgument("MoveMode", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.moveMode)> *>(&mRequest.moveMode));
-        AddArgument("Rate", 0, UINT8_MAX, &mRequest.rate);
-        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
-        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
+        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
+        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
         ModelCommand::AddArguments();
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000001) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x0000000A) on endpoint %" PRIu8, endpointId);
 
         return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::ColorControl::Commands::MoveHue::Type mRequest;
+    chip::app::Clusters::BridgedActions::Commands::DisableAction::Type mRequest;
 };
 
 /*
- * Command MoveSaturation
+ * Command DisableActionWithDuration
  */
-class ColorControlMoveSaturation : public ModelCommand
+class BridgedActionsDisableActionWithDuration : public ModelCommand
 {
 public:
-    ColorControlMoveSaturation() : ModelCommand("move-saturation")
+    BridgedActionsDisableActionWithDuration() : ModelCommand("disable-action-with-duration")
     {
-        AddArgument("MoveMode", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.moveMode)> *>(&mRequest.moveMode));
-        AddArgument("Rate", 0, UINT8_MAX, &mRequest.rate);
-        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
-        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
+        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
+        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
+        AddArgument("Duration", 0, UINT32_MAX, &mRequest.duration);
         ModelCommand::AddArguments();
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000004) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x0000000B) on endpoint %" PRIu8, endpointId);
 
         return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::ColorControl::Commands::MoveSaturation::Type mRequest;
+    chip::app::Clusters::BridgedActions::Commands::DisableActionWithDuration::Type mRequest;
 };
 
 /*
- * Command MoveToColor
+ * Command EnableAction
  */
-class ColorControlMoveToColor : public ModelCommand
+class BridgedActionsEnableAction : public ModelCommand
 {
 public:
-    ColorControlMoveToColor() : ModelCommand("move-to-color")
+    BridgedActionsEnableAction() : ModelCommand("enable-action")
     {
-        AddArgument("ColorX", 0, UINT16_MAX, &mRequest.colorX);
-        AddArgument("ColorY", 0, UINT16_MAX, &mRequest.colorY);
-        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
-        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
-        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
+        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
+        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
         ModelCommand::AddArguments();
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000007) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000008) on endpoint %" PRIu8, endpointId);
 
         return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::ColorControl::Commands::MoveToColor::Type mRequest;
+    chip::app::Clusters::BridgedActions::Commands::EnableAction::Type mRequest;
 };
 
 /*
- * Command MoveToColorTemperature
+ * Command EnableActionWithDuration
  */
-class ColorControlMoveToColorTemperature : public ModelCommand
+class BridgedActionsEnableActionWithDuration : public ModelCommand
 {
 public:
-    ColorControlMoveToColorTemperature() : ModelCommand("move-to-color-temperature")
+    BridgedActionsEnableActionWithDuration() : ModelCommand("enable-action-with-duration")
     {
-        AddArgument("ColorTemperature", 0, UINT16_MAX, &mRequest.colorTemperature);
-        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
-        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
-        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
+        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
+        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
+        AddArgument("Duration", 0, UINT32_MAX, &mRequest.duration);
         ModelCommand::AddArguments();
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x0000000A) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000009) on endpoint %" PRIu8, endpointId);
 
         return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::ColorControl::Commands::MoveToColorTemperature::Type mRequest;
+    chip::app::Clusters::BridgedActions::Commands::EnableActionWithDuration::Type mRequest;
 };
 
 /*
- * Command MoveToHue
+ * Command InstantAction
  */
-class ColorControlMoveToHue : public ModelCommand
+class BridgedActionsInstantAction : public ModelCommand
 {
 public:
-    ColorControlMoveToHue() : ModelCommand("move-to-hue")
+    BridgedActionsInstantAction() : ModelCommand("instant-action")
     {
-        AddArgument("Hue", 0, UINT8_MAX, &mRequest.hue);
-        AddArgument("Direction", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.direction)> *>(&mRequest.direction));
-        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
-        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
-        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
+        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
+        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
         ModelCommand::AddArguments();
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000000) on endpoint %" PRIu8, endpointId);
 
         return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::ColorControl::Commands::MoveToHue::Type mRequest;
+    chip::app::Clusters::BridgedActions::Commands::InstantAction::Type mRequest;
 };
 
 /*
- * Command MoveToHueAndSaturation
+ * Command InstantActionWithTransition
  */
-class ColorControlMoveToHueAndSaturation : public ModelCommand
+class BridgedActionsInstantActionWithTransition : public ModelCommand
 {
 public:
-    ColorControlMoveToHueAndSaturation() : ModelCommand("move-to-hue-and-saturation")
+    BridgedActionsInstantActionWithTransition() : ModelCommand("instant-action-with-transition")
     {
-        AddArgument("Hue", 0, UINT8_MAX, &mRequest.hue);
-        AddArgument("Saturation", 0, UINT8_MAX, &mRequest.saturation);
+        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
+        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
         AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
-        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
-        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000006) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000001) on endpoint %" PRIu8, endpointId);
 
         return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::ColorControl::Commands::MoveToHueAndSaturation::Type mRequest;
+    chip::app::Clusters::BridgedActions::Commands::InstantActionWithTransition::Type mRequest;
 };
 
 /*
- * Command MoveToSaturation
+ * Command PauseAction
  */
-class ColorControlMoveToSaturation : public ModelCommand
+class BridgedActionsPauseAction : public ModelCommand
 {
 public:
-    ColorControlMoveToSaturation() : ModelCommand("move-to-saturation")
+    BridgedActionsPauseAction() : ModelCommand("pause-action")
     {
-        AddArgument("Saturation", 0, UINT8_MAX, &mRequest.saturation);
-        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
-        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
-        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
+        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
+        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
         ModelCommand::AddArguments();
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000003) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000005) on endpoint %" PRIu8, endpointId);
 
         return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::ColorControl::Commands::MoveToSaturation::Type mRequest;
+    chip::app::Clusters::BridgedActions::Commands::PauseAction::Type mRequest;
 };
 
 /*
- * Command StepColor
+ * Command PauseActionWithDuration
  */
-class ColorControlStepColor : public ModelCommand
+class BridgedActionsPauseActionWithDuration : public ModelCommand
 {
 public:
-    ColorControlStepColor() : ModelCommand("step-color")
+    BridgedActionsPauseActionWithDuration() : ModelCommand("pause-action-with-duration")
     {
-        AddArgument("StepX", INT16_MIN, INT16_MAX, &mRequest.stepX);
-        AddArgument("StepY", INT16_MIN, INT16_MAX, &mRequest.stepY);
-        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
-        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
-        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
+        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
+        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
+        AddArgument("Duration", 0, UINT32_MAX, &mRequest.duration);
         ModelCommand::AddArguments();
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000009) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000006) on endpoint %" PRIu8, endpointId);
 
         return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::ColorControl::Commands::StepColor::Type mRequest;
+    chip::app::Clusters::BridgedActions::Commands::PauseActionWithDuration::Type mRequest;
 };
 
 /*
- * Command StepColorTemperature
+ * Command ResumeAction
  */
-class ColorControlStepColorTemperature : public ModelCommand
+class BridgedActionsResumeAction : public ModelCommand
 {
 public:
-    ColorControlStepColorTemperature() : ModelCommand("step-color-temperature")
+    BridgedActionsResumeAction() : ModelCommand("resume-action")
     {
-        AddArgument("StepMode", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.stepMode)> *>(&mRequest.stepMode));
-        AddArgument("StepSize", 0, UINT16_MAX, &mRequest.stepSize);
-        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
-        AddArgument("ColorTemperatureMinimum", 0, UINT16_MAX, &mRequest.colorTemperatureMinimum);
-        AddArgument("ColorTemperatureMaximum", 0, UINT16_MAX, &mRequest.colorTemperatureMaximum);
-        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
-        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
+        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
+        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
         ModelCommand::AddArguments();
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x0000004C) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000007) on endpoint %" PRIu8, endpointId);
 
         return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::ColorControl::Commands::StepColorTemperature::Type mRequest;
+    chip::app::Clusters::BridgedActions::Commands::ResumeAction::Type mRequest;
 };
 
 /*
- * Command StepHue
+ * Command StartAction
  */
-class ColorControlStepHue : public ModelCommand
+class BridgedActionsStartAction : public ModelCommand
 {
 public:
-    ColorControlStepHue() : ModelCommand("step-hue")
+    BridgedActionsStartAction() : ModelCommand("start-action")
     {
-        AddArgument("StepMode", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.stepMode)> *>(&mRequest.stepMode));
-        AddArgument("StepSize", 0, UINT8_MAX, &mRequest.stepSize);
-        AddArgument("TransitionTime", 0, UINT8_MAX, &mRequest.transitionTime);
-        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
-        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
+        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
+        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
         ModelCommand::AddArguments();
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000002) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000002) on endpoint %" PRIu8, endpointId);
 
         return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::ColorControl::Commands::StepHue::Type mRequest;
+    chip::app::Clusters::BridgedActions::Commands::StartAction::Type mRequest;
 };
 
 /*
- * Command StepSaturation
+ * Command StartActionWithDuration
  */
-class ColorControlStepSaturation : public ModelCommand
+class BridgedActionsStartActionWithDuration : public ModelCommand
 {
 public:
-    ColorControlStepSaturation() : ModelCommand("step-saturation")
+    BridgedActionsStartActionWithDuration() : ModelCommand("start-action-with-duration")
     {
-        AddArgument("StepMode", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.stepMode)> *>(&mRequest.stepMode));
-        AddArgument("StepSize", 0, UINT8_MAX, &mRequest.stepSize);
-        AddArgument("TransitionTime", 0, UINT8_MAX, &mRequest.transitionTime);
-        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
-        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
+        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
+        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
+        AddArgument("Duration", 0, UINT32_MAX, &mRequest.duration);
         ModelCommand::AddArguments();
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000005) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000003) on endpoint %" PRIu8, endpointId);
 
         return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::ColorControl::Commands::StepSaturation::Type mRequest;
+    chip::app::Clusters::BridgedActions::Commands::StartActionWithDuration::Type mRequest;
 };
 
 /*
- * Command StopMoveStep
+ * Command StopAction
  */
-class ColorControlStopMoveStep : public ModelCommand
+class BridgedActionsStopAction : public ModelCommand
 {
 public:
-    ColorControlStopMoveStep() : ModelCommand("stop-move-step")
+    BridgedActionsStopAction() : ModelCommand("stop-action")
     {
-        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
-        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
+        AddArgument("ActionID", 0, UINT16_MAX, &mRequest.actionID);
+        AddArgument("InvokeID", 0, UINT32_MAX, &mRequest.invokeID);
         ModelCommand::AddArguments();
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000047) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000025) command (0x00000004) on endpoint %" PRIu8, endpointId);
 
         return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::ColorControl::Commands::StopMoveStep::Type mRequest;
+    chip::app::Clusters::BridgedActions::Commands::StopAction::Type mRequest;
 };
 
 /*
- * Attribute CurrentHue
+ * Attribute ActionList
  */
-class ReadColorControlCurrentHue : public ModelCommand
+class ReadBridgedActionsActionList : public ModelCommand
 {
 public:
-    ReadColorControlCurrentHue() : ModelCommand("read")
+    ReadBridgedActionsActionList() : ModelCommand("read")
     {
-        AddArgument("attr-name", "current-hue");
+        AddArgument("attr-name", "action-list");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlCurrentHue()
+    ~ReadBridgedActionsActionList()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -7600,85 +9062,69 @@ class ReadColorControlCurrentHue : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0025) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
+        chip::Controller::BridgedActionsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentHue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeActionList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<BridgedActionsActionListListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<BridgedActionsActionListListAttributeCallback>(OnBridgedActionsActionListListAttributeResponse,
+                                                                                    this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class ReportColorControlCurrentHue : public ModelCommand
+/*
+ * Attribute EndpointList
+ */
+class ReadBridgedActionsEndpointList : public ModelCommand
 {
 public:
-    ReportColorControlCurrentHue() : ModelCommand("report")
+    ReadBridgedActionsEndpointList() : ModelCommand("read")
     {
-        AddArgument("attr-name", "current-hue");
-        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
-        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
-        AddArgument("wait", 0, 1, &mWait);
+        AddArgument("attr-name", "endpoint-list");
         ModelCommand::AddArguments();
     }
 
-    ~ReportColorControlCurrentHue()
+    ~ReadBridgedActionsEndpointList()
     {
         delete onSuccessCallback;
-        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
-        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0025) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
+        chip::Controller::BridgedActionsCluster cluster;
         cluster.Associate(device, endpointId);
-
-        ReturnErrorOnFailure(cluster.ReportAttributeCurrentHue(onReportCallback->Cancel()));
-
-        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeCurrentHue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
-    }
-
-    chip::System::Clock::Timeout GetWaitDuration() const override
-    {
-        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+        return cluster.ReadAttributeEndpointList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<BridgedActionsEndpointListListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<BridgedActionsEndpointListListAttributeCallback>(
+            OnBridgedActionsEndpointListListAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
-    uint16_t mMinInterval;
-    uint16_t mMaxInterval;
-    bool mWait;
 };
 
 /*
- * Attribute CurrentSaturation
+ * Attribute SetupUrl
  */
-class ReadColorControlCurrentSaturation : public ModelCommand
+class ReadBridgedActionsSetupUrl : public ModelCommand
 {
 public:
-    ReadColorControlCurrentSaturation() : ModelCommand("read")
+    ReadBridgedActionsSetupUrl() : ModelCommand("read")
     {
-        AddArgument("attr-name", "current-saturation");
+        AddArgument("attr-name", "setup-url");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlCurrentSaturation()
+    ~ReadBridgedActionsSetupUrl()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -7686,33 +9132,33 @@ class ReadColorControlCurrentSaturation : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0025) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
+        chip::Controller::BridgedActionsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentSaturation(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeSetupUrl(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class ReportColorControlCurrentSaturation : public ModelCommand
+class ReportBridgedActionsSetupUrl : public ModelCommand
 {
 public:
-    ReportColorControlCurrentSaturation() : ModelCommand("report")
+    ReportBridgedActionsSetupUrl() : ModelCommand("report")
     {
-        AddArgument("attr-name", "current-saturation");
+        AddArgument("attr-name", "setup-url");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportColorControlCurrentSaturation()
+    ~ReportBridgedActionsSetupUrl()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -7722,16 +9168,15 @@ class ReportColorControlCurrentSaturation : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0025) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
+        chip::Controller::BridgedActionsCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeCurrentSaturation(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeSetupUrl(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeCurrentSaturation(successCallback, onFailureCallback->Cancel(), mMinInterval,
-                                                           mMaxInterval);
+        return cluster.SubscribeAttributeSetupUrl(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -7746,60 +9191,26 @@ class ReportColorControlCurrentSaturation : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
     uint16_t mMinInterval;
     uint16_t mMaxInterval;
     bool mWait;
 };
 
 /*
- * Attribute RemainingTime
- */
-class ReadColorControlRemainingTime : public ModelCommand
-{
-public:
-    ReadColorControlRemainingTime() : ModelCommand("read")
-    {
-        AddArgument("attr-name", "remaining-time");
-        ModelCommand::AddArguments();
-    }
-
-    ~ReadColorControlRemainingTime()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
-    {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
-
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRemainingTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
-    }
-
-private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-};
-
-/*
- * Attribute CurrentX
+ * Attribute ClusterRevision
  */
-class ReadColorControlCurrentX : public ModelCommand
+class ReadBridgedActionsClusterRevision : public ModelCommand
 {
 public:
-    ReadColorControlCurrentX() : ModelCommand("read")
+    ReadBridgedActionsClusterRevision() : ModelCommand("read")
     {
-        AddArgument("attr-name", "current-x");
+        AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlCurrentX()
+    ~ReadBridgedActionsClusterRevision()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -7807,11 +9218,11 @@ class ReadColorControlCurrentX : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0025) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
+        chip::Controller::BridgedActionsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentX(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -7821,19 +9232,19 @@ class ReadColorControlCurrentX : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class ReportColorControlCurrentX : public ModelCommand
+class ReportBridgedActionsClusterRevision : public ModelCommand
 {
 public:
-    ReportColorControlCurrentX() : ModelCommand("report")
+    ReportBridgedActionsClusterRevision() : ModelCommand("report")
     {
-        AddArgument("attr-name", "current-x");
+        AddArgument("attr-name", "cluster-revision");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportColorControlCurrentX()
+    ~ReportBridgedActionsClusterRevision()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -7843,15 +9254,15 @@ class ReportColorControlCurrentX : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0025) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
+        chip::Controller::BridgedActionsCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeCurrentX(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeCurrentX(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -7873,19 +9284,28 @@ class ReportColorControlCurrentX : public ModelCommand
     bool mWait;
 };
 
+/*----------------------------------------------------------------------------*\
+| Cluster BridgedDeviceBasicInformation                               | 0x0039 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
 /*
- * Attribute CurrentY
+ * Attribute ClusterRevision
  */
-class ReadColorControlCurrentY : public ModelCommand
+class ReadBridgedDeviceBasicInformationClusterRevision : public ModelCommand
 {
 public:
-    ReadColorControlCurrentY() : ModelCommand("read")
+    ReadBridgedDeviceBasicInformationClusterRevision() : ModelCommand("read")
     {
-        AddArgument("attr-name", "current-y");
+        AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlCurrentY()
+    ~ReadBridgedDeviceBasicInformationClusterRevision()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -7893,11 +9313,11 @@ class ReadColorControlCurrentY : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0039) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
+        chip::Controller::BridgedDeviceBasicInformationCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentY(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -7907,19 +9327,19 @@ class ReadColorControlCurrentY : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class ReportColorControlCurrentY : public ModelCommand
+class ReportBridgedDeviceBasicInformationClusterRevision : public ModelCommand
 {
 public:
-    ReportColorControlCurrentY() : ModelCommand("report")
+    ReportBridgedDeviceBasicInformationClusterRevision() : ModelCommand("report")
     {
-        AddArgument("attr-name", "current-y");
+        AddArgument("attr-name", "cluster-revision");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportColorControlCurrentY()
+    ~ReportBridgedDeviceBasicInformationClusterRevision()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -7929,15 +9349,15 @@ class ReportColorControlCurrentY : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0039) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
+        chip::Controller::BridgedDeviceBasicInformationCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeCurrentY(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeCurrentY(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -7959,682 +9379,622 @@ class ReportColorControlCurrentY : public ModelCommand
     bool mWait;
 };
 
+/*----------------------------------------------------------------------------*\
+| Cluster ColorControl                                                | 0x0300 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * ColorLoopSet                                                      |   0x44 |
+| * EnhancedMoveHue                                                   |   0x41 |
+| * EnhancedMoveToHue                                                 |   0x40 |
+| * EnhancedMoveToHueAndSaturation                                    |   0x43 |
+| * EnhancedStepHue                                                   |   0x42 |
+| * MoveColor                                                         |   0x08 |
+| * MoveColorTemperature                                              |   0x4B |
+| * MoveHue                                                           |   0x01 |
+| * MoveSaturation                                                    |   0x04 |
+| * MoveToColor                                                       |   0x07 |
+| * MoveToColorTemperature                                            |   0x0A |
+| * MoveToHue                                                         |   0x00 |
+| * MoveToHueAndSaturation                                            |   0x06 |
+| * MoveToSaturation                                                  |   0x03 |
+| * StepColor                                                         |   0x09 |
+| * StepColorTemperature                                              |   0x4C |
+| * StepHue                                                           |   0x02 |
+| * StepSaturation                                                    |   0x05 |
+| * StopMoveStep                                                      |   0x47 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * CurrentHue                                                        | 0x0000 |
+| * CurrentSaturation                                                 | 0x0001 |
+| * RemainingTime                                                     | 0x0002 |
+| * CurrentX                                                          | 0x0003 |
+| * CurrentY                                                          | 0x0004 |
+| * DriftCompensation                                                 | 0x0005 |
+| * CompensationText                                                  | 0x0006 |
+| * ColorTemperature                                                  | 0x0007 |
+| * ColorMode                                                         | 0x0008 |
+| * ColorControlOptions                                               | 0x000F |
+| * NumberOfPrimaries                                                 | 0x0010 |
+| * Primary1X                                                         | 0x0011 |
+| * Primary1Y                                                         | 0x0012 |
+| * Primary1Intensity                                                 | 0x0013 |
+| * Primary2X                                                         | 0x0015 |
+| * Primary2Y                                                         | 0x0016 |
+| * Primary2Intensity                                                 | 0x0017 |
+| * Primary3X                                                         | 0x0019 |
+| * Primary3Y                                                         | 0x001A |
+| * Primary3Intensity                                                 | 0x001B |
+| * Primary4X                                                         | 0x0020 |
+| * Primary4Y                                                         | 0x0021 |
+| * Primary4Intensity                                                 | 0x0022 |
+| * Primary5X                                                         | 0x0024 |
+| * Primary5Y                                                         | 0x0025 |
+| * Primary5Intensity                                                 | 0x0026 |
+| * Primary6X                                                         | 0x0028 |
+| * Primary6Y                                                         | 0x0029 |
+| * Primary6Intensity                                                 | 0x002A |
+| * WhitePointX                                                       | 0x0030 |
+| * WhitePointY                                                       | 0x0031 |
+| * ColorPointRX                                                      | 0x0032 |
+| * ColorPointRY                                                      | 0x0033 |
+| * ColorPointRIntensity                                              | 0x0034 |
+| * ColorPointGX                                                      | 0x0036 |
+| * ColorPointGY                                                      | 0x0037 |
+| * ColorPointGIntensity                                              | 0x0038 |
+| * ColorPointBX                                                      | 0x003A |
+| * ColorPointBY                                                      | 0x003B |
+| * ColorPointBIntensity                                              | 0x003C |
+| * EnhancedCurrentHue                                                | 0x4000 |
+| * EnhancedColorMode                                                 | 0x4001 |
+| * ColorLoopActive                                                   | 0x4002 |
+| * ColorLoopDirection                                                | 0x4003 |
+| * ColorLoopTime                                                     | 0x4004 |
+| * ColorLoopStartEnhancedHue                                         | 0x4005 |
+| * ColorLoopStoredEnhancedHue                                        | 0x4006 |
+| * ColorCapabilities                                                 | 0x400A |
+| * ColorTempPhysicalMin                                              | 0x400B |
+| * ColorTempPhysicalMax                                              | 0x400C |
+| * CoupleColorTempToLevelMinMireds                                   | 0x400D |
+| * StartUpColorTemperatureMireds                                     | 0x4010 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
 /*
- * Attribute DriftCompensation
+ * Command ColorLoopSet
  */
-class ReadColorControlDriftCompensation : public ModelCommand
+class ColorControlColorLoopSet : public ModelCommand
 {
 public:
-    ReadColorControlDriftCompensation() : ModelCommand("read")
+    ColorControlColorLoopSet() : ModelCommand("color-loop-set")
     {
-        AddArgument("attr-name", "drift-compensation");
+        AddArgument("UpdateFlags", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<chip::app::Clusters::ColorControl::ColorLoopUpdateFlags> *>(
+                        &mRequest.updateFlags));
+        AddArgument("Action", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.action)> *>(&mRequest.action));
+        AddArgument("Direction", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.direction)> *>(&mRequest.direction));
+        AddArgument("Time", 0, UINT16_MAX, &mRequest.time);
+        AddArgument("StartHue", 0, UINT16_MAX, &mRequest.startHue);
+        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
+        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlDriftCompensation()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000044) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeDriftCompensation(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::ColorControl::Commands::ColorLoopSet::Type mRequest;
 };
 
 /*
- * Attribute CompensationText
+ * Command EnhancedMoveHue
  */
-class ReadColorControlCompensationText : public ModelCommand
+class ColorControlEnhancedMoveHue : public ModelCommand
 {
 public:
-    ReadColorControlCompensationText() : ModelCommand("read")
+    ColorControlEnhancedMoveHue() : ModelCommand("enhanced-move-hue")
     {
-        AddArgument("attr-name", "compensation-text");
+        AddArgument("MoveMode", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.moveMode)> *>(&mRequest.moveMode));
+        AddArgument("Rate", 0, UINT16_MAX, &mRequest.rate);
+        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
+        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlCompensationText()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000041) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCompensationText(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::ColorControl::Commands::EnhancedMoveHue::Type mRequest;
 };
 
 /*
- * Attribute ColorTemperature
+ * Command EnhancedMoveToHue
  */
-class ReadColorControlColorTemperature : public ModelCommand
+class ColorControlEnhancedMoveToHue : public ModelCommand
 {
 public:
-    ReadColorControlColorTemperature() : ModelCommand("read")
+    ColorControlEnhancedMoveToHue() : ModelCommand("enhanced-move-to-hue")
     {
-        AddArgument("attr-name", "color-temperature");
+        AddArgument("EnhancedHue", 0, UINT16_MAX, &mRequest.enhancedHue);
+        AddArgument("Direction", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.direction)> *>(&mRequest.direction));
+        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
+        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
+        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorTemperature()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000040) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorTemperature(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::ColorControl::Commands::EnhancedMoveToHue::Type mRequest;
 };
 
-class ReportColorControlColorTemperature : public ModelCommand
+/*
+ * Command EnhancedMoveToHueAndSaturation
+ */
+class ColorControlEnhancedMoveToHueAndSaturation : public ModelCommand
 {
 public:
-    ReportColorControlColorTemperature() : ModelCommand("report")
+    ColorControlEnhancedMoveToHueAndSaturation() : ModelCommand("enhanced-move-to-hue-and-saturation")
     {
-        AddArgument("attr-name", "color-temperature");
-        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
-        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
-        AddArgument("wait", 0, 1, &mWait);
+        AddArgument("EnhancedHue", 0, UINT16_MAX, &mRequest.enhancedHue);
+        AddArgument("Saturation", 0, UINT8_MAX, &mRequest.saturation);
+        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
+        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
+        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
-    ~ReportColorControlColorTemperature()
-    {
-        delete onSuccessCallback;
-        delete onSuccessCallbackWithoutExit;
-        delete onFailureCallback;
-        delete onReportCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
-
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-
-        ReturnErrorOnFailure(cluster.ReportAttributeColorTemperature(onReportCallback->Cancel()));
-
-        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeColorTemperature(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
-    }
+        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000043) on endpoint %" PRIu8, endpointId);
 
-    chip::System::Clock::Timeout GetWaitDuration() const override
-    {
-        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
-    uint16_t mMinInterval;
-    uint16_t mMaxInterval;
-    bool mWait;
+    chip::app::Clusters::ColorControl::Commands::EnhancedMoveToHueAndSaturation::Type mRequest;
 };
 
 /*
- * Attribute ColorMode
+ * Command EnhancedStepHue
  */
-class ReadColorControlColorMode : public ModelCommand
+class ColorControlEnhancedStepHue : public ModelCommand
 {
 public:
-    ReadColorControlColorMode() : ModelCommand("read")
+    ColorControlEnhancedStepHue() : ModelCommand("enhanced-step-hue")
     {
-        AddArgument("attr-name", "color-mode");
+        AddArgument("StepMode", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.stepMode)> *>(&mRequest.stepMode));
+        AddArgument("StepSize", 0, UINT16_MAX, &mRequest.stepSize);
+        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
+        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
+        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorMode()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000042) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::ColorControl::Commands::EnhancedStepHue::Type mRequest;
 };
 
 /*
- * Attribute ColorControlOptions
+ * Command MoveColor
  */
-class ReadColorControlColorControlOptions : public ModelCommand
+class ColorControlMoveColor : public ModelCommand
 {
 public:
-    ReadColorControlColorControlOptions() : ModelCommand("read")
+    ColorControlMoveColor() : ModelCommand("move-color")
     {
-        AddArgument("attr-name", "color-control-options");
+        AddArgument("RateX", INT16_MIN, INT16_MAX, &mRequest.rateX);
+        AddArgument("RateY", INT16_MIN, INT16_MAX, &mRequest.rateY);
+        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
+        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorControlOptions()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000008) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorControlOptions(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::ColorControl::Commands::MoveColor::Type mRequest;
 };
 
-class WriteColorControlColorControlOptions : public ModelCommand
+/*
+ * Command MoveColorTemperature
+ */
+class ColorControlMoveColorTemperature : public ModelCommand
 {
 public:
-    WriteColorControlColorControlOptions() : ModelCommand("write")
+    ColorControlMoveColorTemperature() : ModelCommand("move-color-temperature")
     {
-        AddArgument("attr-name", "color-control-options");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("MoveMode", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.moveMode)> *>(&mRequest.moveMode));
+        AddArgument("Rate", 0, UINT16_MAX, &mRequest.rate);
+        AddArgument("ColorTemperatureMinimum", 0, UINT16_MAX, &mRequest.colorTemperatureMinimum);
+        AddArgument("ColorTemperatureMaximum", 0, UINT16_MAX, &mRequest.colorTemperatureMaximum);
+        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
+        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
-    ~WriteColorControlColorControlOptions()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x0000004B) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeColorControlOptions(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
+    chip::app::Clusters::ColorControl::Commands::MoveColorTemperature::Type mRequest;
 };
 
 /*
- * Attribute NumberOfPrimaries
+ * Command MoveHue
  */
-class ReadColorControlNumberOfPrimaries : public ModelCommand
+class ColorControlMoveHue : public ModelCommand
 {
 public:
-    ReadColorControlNumberOfPrimaries() : ModelCommand("read")
+    ColorControlMoveHue() : ModelCommand("move-hue")
     {
-        AddArgument("attr-name", "number-of-primaries");
+        AddArgument("MoveMode", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.moveMode)> *>(&mRequest.moveMode));
+        AddArgument("Rate", 0, UINT8_MAX, &mRequest.rate);
+        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
+        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlNumberOfPrimaries()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000001) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNumberOfPrimaries(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::ColorControl::Commands::MoveHue::Type mRequest;
 };
 
 /*
- * Attribute Primary1X
+ * Command MoveSaturation
  */
-class ReadColorControlPrimary1X : public ModelCommand
+class ColorControlMoveSaturation : public ModelCommand
 {
 public:
-    ReadColorControlPrimary1X() : ModelCommand("read")
+    ColorControlMoveSaturation() : ModelCommand("move-saturation")
     {
-        AddArgument("attr-name", "primary1x");
+        AddArgument("MoveMode", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.moveMode)> *>(&mRequest.moveMode));
+        AddArgument("Rate", 0, UINT8_MAX, &mRequest.rate);
+        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
+        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlPrimary1X()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000004) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePrimary1X(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::ColorControl::Commands::MoveSaturation::Type mRequest;
 };
 
 /*
- * Attribute Primary1Y
+ * Command MoveToColor
  */
-class ReadColorControlPrimary1Y : public ModelCommand
+class ColorControlMoveToColor : public ModelCommand
 {
 public:
-    ReadColorControlPrimary1Y() : ModelCommand("read")
+    ColorControlMoveToColor() : ModelCommand("move-to-color")
     {
-        AddArgument("attr-name", "primary1y");
+        AddArgument("ColorX", 0, UINT16_MAX, &mRequest.colorX);
+        AddArgument("ColorY", 0, UINT16_MAX, &mRequest.colorY);
+        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
+        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
+        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlPrimary1Y()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000007) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePrimary1Y(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::ColorControl::Commands::MoveToColor::Type mRequest;
 };
 
 /*
- * Attribute Primary1Intensity
+ * Command MoveToColorTemperature
  */
-class ReadColorControlPrimary1Intensity : public ModelCommand
+class ColorControlMoveToColorTemperature : public ModelCommand
 {
 public:
-    ReadColorControlPrimary1Intensity() : ModelCommand("read")
+    ColorControlMoveToColorTemperature() : ModelCommand("move-to-color-temperature")
     {
-        AddArgument("attr-name", "primary1intensity");
+        AddArgument("ColorTemperature", 0, UINT16_MAX, &mRequest.colorTemperature);
+        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
+        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
+        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlPrimary1Intensity()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x0000000A) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePrimary1Intensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::ColorControl::Commands::MoveToColorTemperature::Type mRequest;
 };
 
 /*
- * Attribute Primary2X
+ * Command MoveToHue
  */
-class ReadColorControlPrimary2X : public ModelCommand
+class ColorControlMoveToHue : public ModelCommand
 {
 public:
-    ReadColorControlPrimary2X() : ModelCommand("read")
+    ColorControlMoveToHue() : ModelCommand("move-to-hue")
     {
-        AddArgument("attr-name", "primary2x");
+        AddArgument("Hue", 0, UINT8_MAX, &mRequest.hue);
+        AddArgument("Direction", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.direction)> *>(&mRequest.direction));
+        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
+        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
+        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlPrimary2X()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000000) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePrimary2X(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::ColorControl::Commands::MoveToHue::Type mRequest;
 };
 
 /*
- * Attribute Primary2Y
+ * Command MoveToHueAndSaturation
  */
-class ReadColorControlPrimary2Y : public ModelCommand
+class ColorControlMoveToHueAndSaturation : public ModelCommand
 {
 public:
-    ReadColorControlPrimary2Y() : ModelCommand("read")
+    ColorControlMoveToHueAndSaturation() : ModelCommand("move-to-hue-and-saturation")
     {
-        AddArgument("attr-name", "primary2y");
+        AddArgument("Hue", 0, UINT8_MAX, &mRequest.hue);
+        AddArgument("Saturation", 0, UINT8_MAX, &mRequest.saturation);
+        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
+        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
+        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlPrimary2Y()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000006) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePrimary2Y(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::ColorControl::Commands::MoveToHueAndSaturation::Type mRequest;
 };
 
 /*
- * Attribute Primary2Intensity
+ * Command MoveToSaturation
  */
-class ReadColorControlPrimary2Intensity : public ModelCommand
+class ColorControlMoveToSaturation : public ModelCommand
 {
 public:
-    ReadColorControlPrimary2Intensity() : ModelCommand("read")
+    ColorControlMoveToSaturation() : ModelCommand("move-to-saturation")
     {
-        AddArgument("attr-name", "primary2intensity");
+        AddArgument("Saturation", 0, UINT8_MAX, &mRequest.saturation);
+        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
+        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
+        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlPrimary2Intensity()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000003) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePrimary2Intensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::ColorControl::Commands::MoveToSaturation::Type mRequest;
 };
 
 /*
- * Attribute Primary3X
+ * Command StepColor
  */
-class ReadColorControlPrimary3X : public ModelCommand
+class ColorControlStepColor : public ModelCommand
 {
 public:
-    ReadColorControlPrimary3X() : ModelCommand("read")
+    ColorControlStepColor() : ModelCommand("step-color")
     {
-        AddArgument("attr-name", "primary3x");
+        AddArgument("StepX", INT16_MIN, INT16_MAX, &mRequest.stepX);
+        AddArgument("StepY", INT16_MIN, INT16_MAX, &mRequest.stepY);
+        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
+        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
+        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlPrimary3X()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000009) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePrimary3X(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::ColorControl::Commands::StepColor::Type mRequest;
 };
 
 /*
- * Attribute Primary3Y
+ * Command StepColorTemperature
  */
-class ReadColorControlPrimary3Y : public ModelCommand
+class ColorControlStepColorTemperature : public ModelCommand
 {
 public:
-    ReadColorControlPrimary3Y() : ModelCommand("read")
+    ColorControlStepColorTemperature() : ModelCommand("step-color-temperature")
     {
-        AddArgument("attr-name", "primary3y");
+        AddArgument("StepMode", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.stepMode)> *>(&mRequest.stepMode));
+        AddArgument("StepSize", 0, UINT16_MAX, &mRequest.stepSize);
+        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
+        AddArgument("ColorTemperatureMinimum", 0, UINT16_MAX, &mRequest.colorTemperatureMinimum);
+        AddArgument("ColorTemperatureMaximum", 0, UINT16_MAX, &mRequest.colorTemperatureMaximum);
+        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
+        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlPrimary3Y()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x0000004C) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePrimary3Y(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::ColorControl::Commands::StepColorTemperature::Type mRequest;
 };
 
 /*
- * Attribute Primary3Intensity
+ * Command StepHue
  */
-class ReadColorControlPrimary3Intensity : public ModelCommand
+class ColorControlStepHue : public ModelCommand
 {
 public:
-    ReadColorControlPrimary3Intensity() : ModelCommand("read")
+    ColorControlStepHue() : ModelCommand("step-hue")
     {
-        AddArgument("attr-name", "primary3intensity");
+        AddArgument("StepMode", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.stepMode)> *>(&mRequest.stepMode));
+        AddArgument("StepSize", 0, UINT8_MAX, &mRequest.stepSize);
+        AddArgument("TransitionTime", 0, UINT8_MAX, &mRequest.transitionTime);
+        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
+        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlPrimary3Intensity()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000002) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePrimary3Intensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::ColorControl::Commands::StepHue::Type mRequest;
 };
 
 /*
- * Attribute Primary4X
+ * Command StepSaturation
  */
-class ReadColorControlPrimary4X : public ModelCommand
+class ColorControlStepSaturation : public ModelCommand
 {
 public:
-    ReadColorControlPrimary4X() : ModelCommand("read")
+    ColorControlStepSaturation() : ModelCommand("step-saturation")
     {
-        AddArgument("attr-name", "primary4x");
+        AddArgument("StepMode", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.stepMode)> *>(&mRequest.stepMode));
+        AddArgument("StepSize", 0, UINT8_MAX, &mRequest.stepSize);
+        AddArgument("TransitionTime", 0, UINT8_MAX, &mRequest.transitionTime);
+        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
+        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlPrimary4X()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000005) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePrimary4X(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::ColorControl::Commands::StepSaturation::Type mRequest;
 };
 
 /*
- * Attribute Primary4Y
+ * Command StopMoveStep
  */
-class ReadColorControlPrimary4Y : public ModelCommand
+class ColorControlStopMoveStep : public ModelCommand
 {
 public:
-    ReadColorControlPrimary4Y() : ModelCommand("read")
+    ColorControlStopMoveStep() : ModelCommand("stop-move-step")
     {
-        AddArgument("attr-name", "primary4y");
+        AddArgument("OptionsMask", 0, UINT8_MAX, &mRequest.optionsMask);
+        AddArgument("OptionsOverride", 0, UINT8_MAX, &mRequest.optionsOverride);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlPrimary4Y()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000300) command (0x00000047) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePrimary4Y(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::ColorControl::Commands::StopMoveStep::Type mRequest;
 };
 
 /*
- * Attribute Primary4Intensity
+ * Attribute CurrentHue
  */
-class ReadColorControlPrimary4Intensity : public ModelCommand
+class ReadColorControlCurrentHue : public ModelCommand
 {
 public:
-    ReadColorControlPrimary4Intensity() : ModelCommand("read")
+    ReadColorControlCurrentHue() : ModelCommand("read")
     {
-        AddArgument("attr-name", "primary4intensity");
+        AddArgument("attr-name", "current-hue");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlPrimary4Intensity()
+    ~ReadColorControlCurrentHue()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -8646,7 +10006,7 @@ class ReadColorControlPrimary4Intensity : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePrimary4Intensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeCurrentHue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -8656,87 +10016,71 @@ class ReadColorControlPrimary4Intensity : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute Primary5X
- */
-class ReadColorControlPrimary5X : public ModelCommand
+class ReportColorControlCurrentHue : public ModelCommand
 {
 public:
-    ReadColorControlPrimary5X() : ModelCommand("read")
+    ReportColorControlCurrentHue() : ModelCommand("report")
     {
-        AddArgument("attr-name", "primary5x");
+        AddArgument("attr-name", "current-hue");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlPrimary5X()
+    ~ReportColorControlCurrentHue()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePrimary5X(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
-    }
-
-private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-};
 
-/*
- * Attribute Primary5Y
- */
-class ReadColorControlPrimary5Y : public ModelCommand
-{
-public:
-    ReadColorControlPrimary5Y() : ModelCommand("read")
-    {
-        AddArgument("attr-name", "primary5y");
-        ModelCommand::AddArguments();
-    }
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentHue(onReportCallback->Cancel()));
 
-    ~ReadColorControlPrimary5Y()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentHue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
-
-        chip::Controller::ColorControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePrimary5Y(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute Primary5Intensity
+ * Attribute CurrentSaturation
  */
-class ReadColorControlPrimary5Intensity : public ModelCommand
+class ReadColorControlCurrentSaturation : public ModelCommand
 {
 public:
-    ReadColorControlPrimary5Intensity() : ModelCommand("read")
+    ReadColorControlCurrentSaturation() : ModelCommand("read")
     {
-        AddArgument("attr-name", "primary5intensity");
+        AddArgument("attr-name", "current-saturation");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlPrimary5Intensity()
+    ~ReadColorControlCurrentSaturation()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -8748,7 +10092,7 @@ class ReadColorControlPrimary5Intensity : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePrimary5Intensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeCurrentSaturation(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -8758,53 +10102,72 @@ class ReadColorControlPrimary5Intensity : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute Primary6X
- */
-class ReadColorControlPrimary6X : public ModelCommand
+class ReportColorControlCurrentSaturation : public ModelCommand
 {
 public:
-    ReadColorControlPrimary6X() : ModelCommand("read")
+    ReportColorControlCurrentSaturation() : ModelCommand("report")
     {
-        AddArgument("attr-name", "primary6x");
+        AddArgument("attr-name", "current-saturation");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlPrimary6X()
+    ~ReportColorControlCurrentSaturation()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePrimary6X(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentSaturation(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentSaturation(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute Primary6Y
+ * Attribute RemainingTime
  */
-class ReadColorControlPrimary6Y : public ModelCommand
+class ReadColorControlRemainingTime : public ModelCommand
 {
 public:
-    ReadColorControlPrimary6Y() : ModelCommand("read")
+    ReadColorControlRemainingTime() : ModelCommand("read")
     {
-        AddArgument("attr-name", "primary6y");
+        AddArgument("attr-name", "remaining-time");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlPrimary6Y()
+    ~ReadColorControlRemainingTime()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -8816,7 +10179,7 @@ class ReadColorControlPrimary6Y : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePrimary6Y(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRemainingTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -8826,53 +10189,71 @@ class ReadColorControlPrimary6Y : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute Primary6Intensity
- */
-class ReadColorControlPrimary6Intensity : public ModelCommand
+class ReportColorControlRemainingTime : public ModelCommand
 {
 public:
-    ReadColorControlPrimary6Intensity() : ModelCommand("read")
+    ReportColorControlRemainingTime() : ModelCommand("report")
     {
-        AddArgument("attr-name", "primary6intensity");
+        AddArgument("attr-name", "remaining-time");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlPrimary6Intensity()
+    ~ReportColorControlRemainingTime()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePrimary6Intensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRemainingTime(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRemainingTime(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute WhitePointX
+ * Attribute CurrentX
  */
-class ReadColorControlWhitePointX : public ModelCommand
+class ReadColorControlCurrentX : public ModelCommand
 {
 public:
-    ReadColorControlWhitePointX() : ModelCommand("read")
+    ReadColorControlCurrentX() : ModelCommand("read")
     {
-        AddArgument("attr-name", "white-point-x");
+        AddArgument("attr-name", "current-x");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlWhitePointX()
+    ~ReadColorControlCurrentX()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -8884,7 +10265,7 @@ class ReadColorControlWhitePointX : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeWhitePointX(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeCurrentX(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -8894,52 +10275,71 @@ class ReadColorControlWhitePointX : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteColorControlWhitePointX : public ModelCommand
+class ReportColorControlCurrentX : public ModelCommand
 {
 public:
-    WriteColorControlWhitePointX() : ModelCommand("write")
+    ReportColorControlCurrentX() : ModelCommand("report")
     {
-        AddArgument("attr-name", "white-point-x");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "current-x");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteColorControlWhitePointX()
+    ~ReportColorControlCurrentX()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeWhitePointX(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentX(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentX(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
-};
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
 
 /*
- * Attribute WhitePointY
+ * Attribute CurrentY
  */
-class ReadColorControlWhitePointY : public ModelCommand
+class ReadColorControlCurrentY : public ModelCommand
 {
 public:
-    ReadColorControlWhitePointY() : ModelCommand("read")
+    ReadColorControlCurrentY() : ModelCommand("read")
     {
-        AddArgument("attr-name", "white-point-y");
+        AddArgument("attr-name", "current-y");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlWhitePointY()
+    ~ReadColorControlCurrentY()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -8951,7 +10351,7 @@ class ReadColorControlWhitePointY : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeWhitePointY(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeCurrentY(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -8961,52 +10361,71 @@ class ReadColorControlWhitePointY : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteColorControlWhitePointY : public ModelCommand
+class ReportColorControlCurrentY : public ModelCommand
 {
 public:
-    WriteColorControlWhitePointY() : ModelCommand("write")
+    ReportColorControlCurrentY() : ModelCommand("report")
     {
-        AddArgument("attr-name", "white-point-y");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "current-y");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteColorControlWhitePointY()
+    ~ReportColorControlCurrentY()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeWhitePointY(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentY(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentY(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ColorPointRX
+ * Attribute DriftCompensation
  */
-class ReadColorControlColorPointRX : public ModelCommand
+class ReadColorControlDriftCompensation : public ModelCommand
 {
 public:
-    ReadColorControlColorPointRX() : ModelCommand("read")
+    ReadColorControlDriftCompensation() : ModelCommand("read")
     {
-        AddArgument("attr-name", "color-point-rx");
+        AddArgument("attr-name", "drift-compensation");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorPointRX()
+    ~ReadColorControlDriftCompensation()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -9018,62 +10437,82 @@ class ReadColorControlColorPointRX : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorPointRX(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeDriftCompensation(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteColorControlColorPointRX : public ModelCommand
+class ReportColorControlDriftCompensation : public ModelCommand
 {
 public:
-    WriteColorControlColorPointRX() : ModelCommand("write")
+    ReportColorControlDriftCompensation() : ModelCommand("report")
     {
-        AddArgument("attr-name", "color-point-rx");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "drift-compensation");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteColorControlColorPointRX()
+    ~ReportColorControlDriftCompensation()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeColorPointRX(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeDriftCompensation(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeDriftCompensation(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ColorPointRY
+ * Attribute CompensationText
  */
-class ReadColorControlColorPointRY : public ModelCommand
+class ReadColorControlCompensationText : public ModelCommand
 {
 public:
-    ReadColorControlColorPointRY() : ModelCommand("read")
+    ReadColorControlCompensationText() : ModelCommand("read")
     {
-        AddArgument("attr-name", "color-point-ry");
+        AddArgument("attr-name", "compensation-text");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorPointRY()
+    ~ReadColorControlCompensationText()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -9085,62 +10524,81 @@ class ReadColorControlColorPointRY : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorPointRY(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeCompensationText(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteColorControlColorPointRY : public ModelCommand
+class ReportColorControlCompensationText : public ModelCommand
 {
 public:
-    WriteColorControlColorPointRY() : ModelCommand("write")
+    ReportColorControlCompensationText() : ModelCommand("report")
     {
-        AddArgument("attr-name", "color-point-ry");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "compensation-text");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteColorControlColorPointRY()
+    ~ReportColorControlCompensationText()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeColorPointRY(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCompensationText(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCompensationText(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ColorPointRIntensity
+ * Attribute ColorTemperature
  */
-class ReadColorControlColorPointRIntensity : public ModelCommand
+class ReadColorControlColorTemperature : public ModelCommand
 {
 public:
-    ReadColorControlColorPointRIntensity() : ModelCommand("read")
+    ReadColorControlColorTemperature() : ModelCommand("read")
     {
-        AddArgument("attr-name", "color-point-rintensity");
+        AddArgument("attr-name", "color-temperature");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorPointRIntensity()
+    ~ReadColorControlColorTemperature()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -9152,62 +10610,81 @@ class ReadColorControlColorPointRIntensity : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorPointRIntensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeColorTemperature(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteColorControlColorPointRIntensity : public ModelCommand
+class ReportColorControlColorTemperature : public ModelCommand
 {
 public:
-    WriteColorControlColorPointRIntensity() : ModelCommand("write")
+    ReportColorControlColorTemperature() : ModelCommand("report")
     {
-        AddArgument("attr-name", "color-point-rintensity");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "color-temperature");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteColorControlColorPointRIntensity()
+    ~ReportColorControlColorTemperature()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeColorPointRIntensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorTemperature(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorTemperature(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ColorPointGX
+ * Attribute ColorMode
  */
-class ReadColorControlColorPointGX : public ModelCommand
+class ReadColorControlColorMode : public ModelCommand
 {
 public:
-    ReadColorControlColorPointGX() : ModelCommand("read")
+    ReadColorControlColorMode() : ModelCommand("read")
     {
-        AddArgument("attr-name", "color-point-gx");
+        AddArgument("attr-name", "color-mode");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorPointGX()
+    ~ReadColorControlColorMode()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -9219,62 +10696,81 @@ class ReadColorControlColorPointGX : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorPointGX(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeColorMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteColorControlColorPointGX : public ModelCommand
+class ReportColorControlColorMode : public ModelCommand
 {
 public:
-    WriteColorControlColorPointGX() : ModelCommand("write")
+    ReportColorControlColorMode() : ModelCommand("report")
     {
-        AddArgument("attr-name", "color-point-gx");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "color-mode");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteColorControlColorPointGX()
+    ~ReportColorControlColorMode()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeColorPointGX(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorMode(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorMode(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ColorPointGY
+ * Attribute ColorControlOptions
  */
-class ReadColorControlColorPointGY : public ModelCommand
+class ReadColorControlColorControlOptions : public ModelCommand
 {
 public:
-    ReadColorControlColorPointGY() : ModelCommand("read")
+    ReadColorControlColorControlOptions() : ModelCommand("read")
     {
-        AddArgument("attr-name", "color-point-gy");
+        AddArgument("attr-name", "color-control-options");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorPointGY()
+    ~ReadColorControlColorControlOptions()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -9286,27 +10782,27 @@ class ReadColorControlColorPointGY : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorPointGY(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeColorControlOptions(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteColorControlColorPointGY : public ModelCommand
+class WriteColorControlColorControlOptions : public ModelCommand
 {
 public:
-    WriteColorControlColorPointGY() : ModelCommand("write")
+    WriteColorControlColorControlOptions() : ModelCommand("write")
     {
-        AddArgument("attr-name", "color-point-gy");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "color-control-options");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~WriteColorControlColorPointGY()
+    ~WriteColorControlColorControlOptions()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -9318,7 +10814,7 @@ class WriteColorControlColorPointGY : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeColorPointGY(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return cluster.WriteAttributeColorControlOptions(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
@@ -9326,22 +10822,75 @@ class WriteColorControlColorPointGY : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
+    uint8_t mValue;
+};
+
+class ReportColorControlColorControlOptions : public ModelCommand
+{
+public:
+    ReportColorControlColorControlOptions() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "color-control-options");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlColorControlOptions()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorControlOptions(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorControlOptions(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                             mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ColorPointGIntensity
+ * Attribute NumberOfPrimaries
  */
-class ReadColorControlColorPointGIntensity : public ModelCommand
+class ReadColorControlNumberOfPrimaries : public ModelCommand
 {
 public:
-    ReadColorControlColorPointGIntensity() : ModelCommand("read")
+    ReadColorControlNumberOfPrimaries() : ModelCommand("read")
     {
-        AddArgument("attr-name", "color-point-gintensity");
+        AddArgument("attr-name", "number-of-primaries");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorPointGIntensity()
+    ~ReadColorControlNumberOfPrimaries()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -9353,7 +10902,7 @@ class ReadColorControlColorPointGIntensity : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorPointGIntensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNumberOfPrimaries(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -9363,52 +10912,72 @@ class ReadColorControlColorPointGIntensity : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteColorControlColorPointGIntensity : public ModelCommand
+class ReportColorControlNumberOfPrimaries : public ModelCommand
 {
 public:
-    WriteColorControlColorPointGIntensity() : ModelCommand("write")
+    ReportColorControlNumberOfPrimaries() : ModelCommand("report")
     {
-        AddArgument("attr-name", "color-point-gintensity");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "number-of-primaries");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteColorControlColorPointGIntensity()
+    ~ReportColorControlNumberOfPrimaries()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeColorPointGIntensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeNumberOfPrimaries(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeNumberOfPrimaries(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ColorPointBX
+ * Attribute Primary1X
  */
-class ReadColorControlColorPointBX : public ModelCommand
+class ReadColorControlPrimary1X : public ModelCommand
 {
 public:
-    ReadColorControlColorPointBX() : ModelCommand("read")
+    ReadColorControlPrimary1X() : ModelCommand("read")
     {
-        AddArgument("attr-name", "color-point-bx");
+        AddArgument("attr-name", "primary1x");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorPointBX()
+    ~ReadColorControlPrimary1X()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -9420,7 +10989,7 @@ class ReadColorControlColorPointBX : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorPointBX(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePrimary1X(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -9430,52 +10999,71 @@ class ReadColorControlColorPointBX : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteColorControlColorPointBX : public ModelCommand
+class ReportColorControlPrimary1X : public ModelCommand
 {
 public:
-    WriteColorControlColorPointBX() : ModelCommand("write")
+    ReportColorControlPrimary1X() : ModelCommand("report")
     {
-        AddArgument("attr-name", "color-point-bx");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "primary1x");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteColorControlColorPointBX()
+    ~ReportColorControlPrimary1X()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeColorPointBX(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributePrimary1X(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePrimary1X(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ColorPointBY
+ * Attribute Primary1Y
  */
-class ReadColorControlColorPointBY : public ModelCommand
+class ReadColorControlPrimary1Y : public ModelCommand
 {
 public:
-    ReadColorControlColorPointBY() : ModelCommand("read")
+    ReadColorControlPrimary1Y() : ModelCommand("read")
     {
-        AddArgument("attr-name", "color-point-by");
+        AddArgument("attr-name", "primary1y");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorPointBY()
+    ~ReadColorControlPrimary1Y()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -9487,7 +11075,7 @@ class ReadColorControlColorPointBY : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorPointBY(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePrimary1Y(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -9497,52 +11085,71 @@ class ReadColorControlColorPointBY : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteColorControlColorPointBY : public ModelCommand
+class ReportColorControlPrimary1Y : public ModelCommand
 {
 public:
-    WriteColorControlColorPointBY() : ModelCommand("write")
+    ReportColorControlPrimary1Y() : ModelCommand("report")
     {
-        AddArgument("attr-name", "color-point-by");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "primary1y");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteColorControlColorPointBY()
+    ~ReportColorControlPrimary1Y()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeColorPointBY(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributePrimary1Y(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePrimary1Y(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ColorPointBIntensity
+ * Attribute Primary1Intensity
  */
-class ReadColorControlColorPointBIntensity : public ModelCommand
+class ReadColorControlPrimary1Intensity : public ModelCommand
 {
 public:
-    ReadColorControlColorPointBIntensity() : ModelCommand("read")
+    ReadColorControlPrimary1Intensity() : ModelCommand("read")
     {
-        AddArgument("attr-name", "color-point-bintensity");
+        AddArgument("attr-name", "primary1intensity");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorPointBIntensity()
+    ~ReadColorControlPrimary1Intensity()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -9554,7 +11161,7 @@ class ReadColorControlColorPointBIntensity : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorPointBIntensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePrimary1Intensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -9564,52 +11171,72 @@ class ReadColorControlColorPointBIntensity : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteColorControlColorPointBIntensity : public ModelCommand
+class ReportColorControlPrimary1Intensity : public ModelCommand
 {
 public:
-    WriteColorControlColorPointBIntensity() : ModelCommand("write")
+    ReportColorControlPrimary1Intensity() : ModelCommand("report")
     {
-        AddArgument("attr-name", "color-point-bintensity");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "primary1intensity");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteColorControlColorPointBIntensity()
+    ~ReportColorControlPrimary1Intensity()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeColorPointBIntensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributePrimary1Intensity(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePrimary1Intensity(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute EnhancedCurrentHue
+ * Attribute Primary2X
  */
-class ReadColorControlEnhancedCurrentHue : public ModelCommand
+class ReadColorControlPrimary2X : public ModelCommand
 {
 public:
-    ReadColorControlEnhancedCurrentHue() : ModelCommand("read")
+    ReadColorControlPrimary2X() : ModelCommand("read")
     {
-        AddArgument("attr-name", "enhanced-current-hue");
+        AddArgument("attr-name", "primary2x");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlEnhancedCurrentHue()
+    ~ReadColorControlPrimary2X()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -9621,7 +11248,7 @@ class ReadColorControlEnhancedCurrentHue : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeEnhancedCurrentHue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePrimary2X(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -9631,53 +11258,71 @@ class ReadColorControlEnhancedCurrentHue : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute EnhancedColorMode
- */
-class ReadColorControlEnhancedColorMode : public ModelCommand
+class ReportColorControlPrimary2X : public ModelCommand
 {
 public:
-    ReadColorControlEnhancedColorMode() : ModelCommand("read")
+    ReportColorControlPrimary2X() : ModelCommand("report")
     {
-        AddArgument("attr-name", "enhanced-color-mode");
+        AddArgument("attr-name", "primary2x");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlEnhancedColorMode()
+    ~ReportColorControlPrimary2X()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeEnhancedColorMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributePrimary2X(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePrimary2X(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ColorLoopActive
+ * Attribute Primary2Y
  */
-class ReadColorControlColorLoopActive : public ModelCommand
+class ReadColorControlPrimary2Y : public ModelCommand
 {
 public:
-    ReadColorControlColorLoopActive() : ModelCommand("read")
+    ReadColorControlPrimary2Y() : ModelCommand("read")
     {
-        AddArgument("attr-name", "color-loop-active");
+        AddArgument("attr-name", "primary2y");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorLoopActive()
+    ~ReadColorControlPrimary2Y()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -9689,29 +11334,81 @@ class ReadColorControlColorLoopActive : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorLoopActive(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePrimary2Y(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportColorControlPrimary2Y : public ModelCommand
+{
+public:
+    ReportColorControlPrimary2Y() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "primary2y");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlPrimary2Y()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributePrimary2Y(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePrimary2Y(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ColorLoopDirection
+ * Attribute Primary2Intensity
  */
-class ReadColorControlColorLoopDirection : public ModelCommand
+class ReadColorControlPrimary2Intensity : public ModelCommand
 {
 public:
-    ReadColorControlColorLoopDirection() : ModelCommand("read")
+    ReadColorControlPrimary2Intensity() : ModelCommand("read")
     {
-        AddArgument("attr-name", "color-loop-direction");
+        AddArgument("attr-name", "primary2intensity");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorLoopDirection()
+    ~ReadColorControlPrimary2Intensity()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -9723,7 +11420,7 @@ class ReadColorControlColorLoopDirection : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorLoopDirection(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePrimary2Intensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -9733,53 +11430,72 @@ class ReadColorControlColorLoopDirection : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ColorLoopTime
- */
-class ReadColorControlColorLoopTime : public ModelCommand
+class ReportColorControlPrimary2Intensity : public ModelCommand
 {
 public:
-    ReadColorControlColorLoopTime() : ModelCommand("read")
+    ReportColorControlPrimary2Intensity() : ModelCommand("report")
     {
-        AddArgument("attr-name", "color-loop-time");
+        AddArgument("attr-name", "primary2intensity");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorLoopTime()
+    ~ReportColorControlPrimary2Intensity()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorLoopTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributePrimary2Intensity(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePrimary2Intensity(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ColorLoopStartEnhancedHue
+ * Attribute Primary3X
  */
-class ReadColorControlColorLoopStartEnhancedHue : public ModelCommand
+class ReadColorControlPrimary3X : public ModelCommand
 {
 public:
-    ReadColorControlColorLoopStartEnhancedHue() : ModelCommand("read")
+    ReadColorControlPrimary3X() : ModelCommand("read")
     {
-        AddArgument("attr-name", "color-loop-start-enhanced-hue");
+        AddArgument("attr-name", "primary3x");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorLoopStartEnhancedHue()
+    ~ReadColorControlPrimary3X()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -9791,7 +11507,7 @@ class ReadColorControlColorLoopStartEnhancedHue : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorLoopStartEnhancedHue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePrimary3X(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -9801,53 +11517,71 @@ class ReadColorControlColorLoopStartEnhancedHue : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ColorLoopStoredEnhancedHue
- */
-class ReadColorControlColorLoopStoredEnhancedHue : public ModelCommand
+class ReportColorControlPrimary3X : public ModelCommand
 {
 public:
-    ReadColorControlColorLoopStoredEnhancedHue() : ModelCommand("read")
+    ReportColorControlPrimary3X() : ModelCommand("report")
     {
-        AddArgument("attr-name", "color-loop-stored-enhanced-hue");
+        AddArgument("attr-name", "primary3x");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorLoopStoredEnhancedHue()
+    ~ReportColorControlPrimary3X()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorLoopStoredEnhancedHue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributePrimary3X(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePrimary3X(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ColorCapabilities
+ * Attribute Primary3Y
  */
-class ReadColorControlColorCapabilities : public ModelCommand
+class ReadColorControlPrimary3Y : public ModelCommand
 {
 public:
-    ReadColorControlColorCapabilities() : ModelCommand("read")
+    ReadColorControlPrimary3Y() : ModelCommand("read")
     {
-        AddArgument("attr-name", "color-capabilities");
+        AddArgument("attr-name", "primary3y");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorCapabilities()
+    ~ReadColorControlPrimary3Y()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -9859,7 +11593,7 @@ class ReadColorControlColorCapabilities : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorCapabilities(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePrimary3Y(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -9869,53 +11603,71 @@ class ReadColorControlColorCapabilities : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ColorTempPhysicalMin
- */
-class ReadColorControlColorTempPhysicalMin : public ModelCommand
+class ReportColorControlPrimary3Y : public ModelCommand
 {
 public:
-    ReadColorControlColorTempPhysicalMin() : ModelCommand("read")
+    ReportColorControlPrimary3Y() : ModelCommand("report")
     {
-        AddArgument("attr-name", "color-temp-physical-min");
+        AddArgument("attr-name", "primary3y");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorTempPhysicalMin()
+    ~ReportColorControlPrimary3Y()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorTempPhysicalMin(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributePrimary3Y(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePrimary3Y(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ColorTempPhysicalMax
+ * Attribute Primary3Intensity
  */
-class ReadColorControlColorTempPhysicalMax : public ModelCommand
+class ReadColorControlPrimary3Intensity : public ModelCommand
 {
 public:
-    ReadColorControlColorTempPhysicalMax() : ModelCommand("read")
+    ReadColorControlPrimary3Intensity() : ModelCommand("read")
     {
-        AddArgument("attr-name", "color-temp-physical-max");
+        AddArgument("attr-name", "primary3intensity");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlColorTempPhysicalMax()
+    ~ReadColorControlPrimary3Intensity()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -9927,63 +11679,82 @@ class ReadColorControlColorTempPhysicalMax : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeColorTempPhysicalMax(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePrimary3Intensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute CoupleColorTempToLevelMinMireds
- */
-class ReadColorControlCoupleColorTempToLevelMinMireds : public ModelCommand
+class ReportColorControlPrimary3Intensity : public ModelCommand
 {
 public:
-    ReadColorControlCoupleColorTempToLevelMinMireds() : ModelCommand("read")
+    ReportColorControlPrimary3Intensity() : ModelCommand("report")
     {
-        AddArgument("attr-name", "couple-color-temp-to-level-min-mireds");
+        AddArgument("attr-name", "primary3intensity");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlCoupleColorTempToLevelMinMireds()
+    ~ReportColorControlPrimary3Intensity()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCoupleColorTempToLevelMinMireds(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributePrimary3Intensity(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePrimary3Intensity(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute StartUpColorTemperatureMireds
+ * Attribute Primary4X
  */
-class ReadColorControlStartUpColorTemperatureMireds : public ModelCommand
+class ReadColorControlPrimary4X : public ModelCommand
 {
 public:
-    ReadColorControlStartUpColorTemperatureMireds() : ModelCommand("read")
+    ReadColorControlPrimary4X() : ModelCommand("read")
     {
-        AddArgument("attr-name", "start-up-color-temperature-mireds");
+        AddArgument("attr-name", "primary4x");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlStartUpColorTemperatureMireds()
+    ~ReadColorControlPrimary4X()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -9995,7 +11766,7 @@ class ReadColorControlStartUpColorTemperatureMireds : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeStartUpColorTemperatureMireds(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePrimary4X(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -10005,53 +11776,71 @@ class ReadColorControlStartUpColorTemperatureMireds : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteColorControlStartUpColorTemperatureMireds : public ModelCommand
+class ReportColorControlPrimary4X : public ModelCommand
 {
 public:
-    WriteColorControlStartUpColorTemperatureMireds() : ModelCommand("write")
+    ReportColorControlPrimary4X() : ModelCommand("report")
     {
-        AddArgument("attr-name", "start-up-color-temperature-mireds");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "primary4x");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteColorControlStartUpColorTemperatureMireds()
+    ~ReportColorControlPrimary4X()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeStartUpColorTemperatureMireds(onSuccessCallback->Cancel(), onFailureCallback->Cancel(),
-                                                                   mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributePrimary4X(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePrimary4X(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute Primary4Y
  */
-class ReadColorControlClusterRevision : public ModelCommand
+class ReadColorControlPrimary4Y : public ModelCommand
 {
 public:
-    ReadColorControlClusterRevision() : ModelCommand("read")
+    ReadColorControlPrimary4Y() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "primary4y");
         ModelCommand::AddArguments();
     }
 
-    ~ReadColorControlClusterRevision()
+    ~ReadColorControlPrimary4Y()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -10063,7 +11852,7 @@ class ReadColorControlClusterRevision : public ModelCommand
 
         chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePrimary4Y(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -10073,82 +11862,71 @@ class ReadColorControlClusterRevision : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster ContentLauncher                                             | 0x050A |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * LaunchContent                                                     |   0x00 |
-| * LaunchURL                                                         |   0x01 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * AcceptsHeaderList                                                 | 0x0000 |
-| * SupportedStreamingTypes                                           | 0x0001 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Command LaunchContent
- */
-class ContentLauncherLaunchContent : public ModelCommand
+class ReportColorControlPrimary4Y : public ModelCommand
 {
 public:
-    ContentLauncherLaunchContent() : ModelCommand("launch-content")
+    ReportColorControlPrimary4Y() : ModelCommand("report")
     {
-        AddArgument("AutoPlay", 0, 1, &mRequest.autoPlay);
-        AddArgument("Data", &mRequest.data);
+        AddArgument("attr-name", "primary4y");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportColorControlPrimary4Y()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000050A) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnContentLauncherLaunchContentResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
-    }
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
 
-private:
-    chip::app::Clusters::ContentLauncher::Commands::LaunchContent::Type mRequest;
-};
+        ReturnErrorOnFailure(cluster.ReportAttributePrimary4Y(onReportCallback->Cancel()));
 
-/*
- * Command LaunchURL
- */
-class ContentLauncherLaunchURL : public ModelCommand
-{
-public:
-    ContentLauncherLaunchURL() : ModelCommand("launch-url")
-    {
-        AddArgument("ContentURL", &mRequest.contentURL);
-        AddArgument("DisplayString", &mRequest.displayString);
-        ModelCommand::AddArguments();
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePrimary4Y(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000050A) command (0x00000001) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnContentLauncherLaunchURLResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::ContentLauncher::Commands::LaunchURL::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute AcceptsHeaderList
+ * Attribute Primary4Intensity
  */
-class ReadContentLauncherAcceptsHeaderList : public ModelCommand
+class ReadColorControlPrimary4Intensity : public ModelCommand
 {
 public:
-    ReadContentLauncherAcceptsHeaderList() : ModelCommand("read")
+    ReadColorControlPrimary4Intensity() : ModelCommand("read")
     {
-        AddArgument("attr-name", "accepts-header-list");
+        AddArgument("attr-name", "primary4intensity");
         ModelCommand::AddArguments();
     }
 
-    ~ReadContentLauncherAcceptsHeaderList()
+    ~ReadColorControlPrimary4Intensity()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -10156,69 +11934,86 @@ class ReadContentLauncherAcceptsHeaderList : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050A) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ContentLauncherCluster cluster;
+        chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeAcceptsHeaderList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePrimary4Intensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<ContentLauncherAcceptsHeaderListListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<ContentLauncherAcceptsHeaderListListAttributeCallback>(
-            OnContentLauncherAcceptsHeaderListListAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute SupportedStreamingTypes
- */
-class ReadContentLauncherSupportedStreamingTypes : public ModelCommand
+class ReportColorControlPrimary4Intensity : public ModelCommand
 {
 public:
-    ReadContentLauncherSupportedStreamingTypes() : ModelCommand("read")
+    ReportColorControlPrimary4Intensity() : ModelCommand("report")
     {
-        AddArgument("attr-name", "supported-streaming-types");
+        AddArgument("attr-name", "primary4intensity");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadContentLauncherSupportedStreamingTypes()
+    ~ReportColorControlPrimary4Intensity()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050A) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ContentLauncherCluster cluster;
+        chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeSupportedStreamingTypes(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributePrimary4Intensity(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePrimary4Intensity(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<ContentLauncherSupportedStreamingTypesListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<ContentLauncherSupportedStreamingTypesListAttributeCallback>(
-            OnContentLauncherSupportedStreamingTypesListAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute Primary5X
  */
-class ReadContentLauncherClusterRevision : public ModelCommand
+class ReadColorControlPrimary5X : public ModelCommand
 {
 public:
-    ReadContentLauncherClusterRevision() : ModelCommand("read")
+    ReadColorControlPrimary5X() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "primary5x");
         ModelCommand::AddArguments();
     }
 
-    ~ReadContentLauncherClusterRevision()
+    ~ReadColorControlPrimary5X()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -10226,11 +12021,11 @@ class ReadContentLauncherClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050A) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ContentLauncherCluster cluster;
+        chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePrimary5X(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -10240,66 +12035,71 @@ class ReadContentLauncherClusterRevision : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster Descriptor                                                  | 0x001D |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * DeviceList                                                        | 0x0000 |
-| * ServerList                                                        | 0x0001 |
-| * ClientList                                                        | 0x0002 |
-| * PartsList                                                         | 0x0003 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Attribute DeviceList
- */
-class ReadDescriptorDeviceList : public ModelCommand
+class ReportColorControlPrimary5X : public ModelCommand
 {
 public:
-    ReadDescriptorDeviceList() : ModelCommand("read")
+    ReportColorControlPrimary5X() : ModelCommand("report")
     {
-        AddArgument("attr-name", "device-list");
+        AddArgument("attr-name", "primary5x");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadDescriptorDeviceList()
+    ~ReportColorControlPrimary5X()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x001D) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::DescriptorCluster cluster;
+        chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeDeviceList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributePrimary5X(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePrimary5X(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<DescriptorDeviceListListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DescriptorDeviceListListAttributeCallback>(OnDescriptorDeviceListListAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ServerList
+ * Attribute Primary5Y
  */
-class ReadDescriptorServerList : public ModelCommand
+class ReadColorControlPrimary5Y : public ModelCommand
 {
 public:
-    ReadDescriptorServerList() : ModelCommand("read")
+    ReadColorControlPrimary5Y() : ModelCommand("read")
     {
-        AddArgument("attr-name", "server-list");
+        AddArgument("attr-name", "primary5y");
         ModelCommand::AddArguments();
     }
 
-    ~ReadDescriptorServerList()
+    ~ReadColorControlPrimary5Y()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -10307,67 +12107,85 @@ class ReadDescriptorServerList : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x001D) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::DescriptorCluster cluster;
+        chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeServerList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePrimary5Y(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<DescriptorServerListListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DescriptorServerListListAttributeCallback>(OnDescriptorServerListListAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ClientList
- */
-class ReadDescriptorClientList : public ModelCommand
+class ReportColorControlPrimary5Y : public ModelCommand
 {
 public:
-    ReadDescriptorClientList() : ModelCommand("read")
+    ReportColorControlPrimary5Y() : ModelCommand("report")
     {
-        AddArgument("attr-name", "client-list");
+        AddArgument("attr-name", "primary5y");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadDescriptorClientList()
+    ~ReportColorControlPrimary5Y()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x001D) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::DescriptorCluster cluster;
+        chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClientList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributePrimary5Y(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePrimary5Y(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<DescriptorClientListListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DescriptorClientListListAttributeCallback>(OnDescriptorClientListListAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute PartsList
+ * Attribute Primary5Intensity
  */
-class ReadDescriptorPartsList : public ModelCommand
+class ReadColorControlPrimary5Intensity : public ModelCommand
 {
 public:
-    ReadDescriptorPartsList() : ModelCommand("read")
+    ReadColorControlPrimary5Intensity() : ModelCommand("read")
     {
-        AddArgument("attr-name", "parts-list");
+        AddArgument("attr-name", "primary5intensity");
         ModelCommand::AddArguments();
     }
 
-    ~ReadDescriptorPartsList()
+    ~ReadColorControlPrimary5Intensity()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -10375,714 +12193,17786 @@ class ReadDescriptorPartsList : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x001D) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::DescriptorCluster cluster;
+        chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePartsList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePrimary5Intensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<DescriptorPartsListListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DescriptorPartsListListAttributeCallback>(OnDescriptorPartsListListAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadDescriptorClusterRevision : public ModelCommand
+class ReportColorControlPrimary5Intensity : public ModelCommand
 {
 public:
-    ReadDescriptorClusterRevision() : ModelCommand("read")
+    ReportColorControlPrimary5Intensity() : ModelCommand("report")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "primary5intensity");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadDescriptorClusterRevision()
+    ~ReportColorControlPrimary5Intensity()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x001D) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::DescriptorCluster cluster;
+        chip::Controller::ColorControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributePrimary5Intensity(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePrimary5Intensity(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster DiagnosticLogs                                              | 0x0032 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * RetrieveLogsRequest                                               |   0x00 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-\*----------------------------------------------------------------------------*/
-
 /*
- * Command RetrieveLogsRequest
+ * Attribute Primary6X
  */
-class DiagnosticLogsRetrieveLogsRequest : public ModelCommand
+class ReadColorControlPrimary6X : public ModelCommand
 {
 public:
-    DiagnosticLogsRetrieveLogsRequest() : ModelCommand("retrieve-logs-request")
+    ReadColorControlPrimary6X() : ModelCommand("read")
     {
-        AddArgument("Intent", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.intent)> *>(&mRequest.intent));
-        AddArgument("RequestedProtocol", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.requestedProtocol)> *>(&mRequest.requestedProtocol));
-        AddArgument("TransferFileDesignator", &mRequest.transferFileDesignator);
+        AddArgument("attr-name", "primary6x");
         ModelCommand::AddArguments();
     }
 
+    ~ReadColorControlPrimary6X()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000032) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDiagnosticLogsRetrieveLogsResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributePrimary6X(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::DiagnosticLogs::Commands::RetrieveLogsRequest::Type mRequest;
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster DoorLock                                                    | 0x0101 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * ClearAllPins                                                      |   0x08 |
-| * ClearAllRfids                                                     |   0x19 |
-| * ClearHolidaySchedule                                              |   0x13 |
-| * ClearPin                                                          |   0x07 |
-| * ClearRfid                                                         |   0x18 |
-| * ClearWeekdaySchedule                                              |   0x0D |
-| * ClearYeardaySchedule                                              |   0x10 |
-| * GetHolidaySchedule                                                |   0x12 |
-| * GetLogRecord                                                      |   0x04 |
-| * GetPin                                                            |   0x06 |
-| * GetRfid                                                           |   0x17 |
-| * GetUserType                                                       |   0x15 |
-| * GetWeekdaySchedule                                                |   0x0C |
-| * GetYeardaySchedule                                                |   0x0F |
-| * LockDoor                                                          |   0x00 |
-| * SetHolidaySchedule                                                |   0x11 |
-| * SetPin                                                            |   0x05 |
-| * SetRfid                                                           |   0x16 |
-| * SetUserType                                                       |   0x14 |
-| * SetWeekdaySchedule                                                |   0x0B |
-| * SetYeardaySchedule                                                |   0x0E |
-| * UnlockDoor                                                        |   0x01 |
-| * UnlockWithTimeout                                                 |   0x03 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * LockState                                                         | 0x0000 |
-| * LockType                                                          | 0x0001 |
-| * ActuatorEnabled                                                   | 0x0002 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Command ClearAllPins
- */
-class DoorLockClearAllPins : public ModelCommand
+class ReportColorControlPrimary6X : public ModelCommand
 {
 public:
-    DoorLockClearAllPins() : ModelCommand("clear-all-pins") { ModelCommand::AddArguments(); }
+    ReportColorControlPrimary6X() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "primary6x");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlPrimary6X()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000008) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockClearAllPinsResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
-    }
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
 
-private:
-    chip::app::Clusters::DoorLock::Commands::ClearAllPins::Type mRequest;
-};
+        ReturnErrorOnFailure(cluster.ReportAttributePrimary6X(onReportCallback->Cancel()));
 
-/*
- * Command ClearAllRfids
- */
-class DoorLockClearAllRfids : public ModelCommand
-{
-public:
-    DoorLockClearAllRfids() : ModelCommand("clear-all-rfids") { ModelCommand::AddArguments(); }
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePrimary6X(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000019) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockClearAllRfidsResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::DoorLock::Commands::ClearAllRfids::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command ClearHolidaySchedule
+ * Attribute Primary6Y
  */
-class DoorLockClearHolidaySchedule : public ModelCommand
+class ReadColorControlPrimary6Y : public ModelCommand
 {
 public:
-    DoorLockClearHolidaySchedule() : ModelCommand("clear-holiday-schedule")
+    ReadColorControlPrimary6Y() : ModelCommand("read")
     {
-        AddArgument("ScheduleId", 0, UINT8_MAX, &mRequest.scheduleId);
+        AddArgument("attr-name", "primary6y");
         ModelCommand::AddArguments();
     }
 
+    ~ReadColorControlPrimary6Y()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000013) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockClearHolidayScheduleResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributePrimary6Y(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::DoorLock::Commands::ClearHolidaySchedule::Type mRequest;
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command ClearPin
- */
-class DoorLockClearPin : public ModelCommand
+class ReportColorControlPrimary6Y : public ModelCommand
 {
 public:
-    DoorLockClearPin() : ModelCommand("clear-pin")
+    ReportColorControlPrimary6Y() : ModelCommand("report")
     {
-        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        AddArgument("attr-name", "primary6y");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportColorControlPrimary6Y()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000007) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockClearPinResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
-    }
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
 
-private:
-    chip::app::Clusters::DoorLock::Commands::ClearPin::Type mRequest;
-};
+        ReturnErrorOnFailure(cluster.ReportAttributePrimary6Y(onReportCallback->Cancel()));
 
-/*
- * Command ClearRfid
- */
-class DoorLockClearRfid : public ModelCommand
-{
-public:
-    DoorLockClearRfid() : ModelCommand("clear-rfid")
-    {
-        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
-        ModelCommand::AddArguments();
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePrimary6Y(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000018) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockClearRfidResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::DoorLock::Commands::ClearRfid::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command ClearWeekdaySchedule
+ * Attribute Primary6Intensity
  */
-class DoorLockClearWeekdaySchedule : public ModelCommand
+class ReadColorControlPrimary6Intensity : public ModelCommand
 {
 public:
-    DoorLockClearWeekdaySchedule() : ModelCommand("clear-weekday-schedule")
+    ReadColorControlPrimary6Intensity() : ModelCommand("read")
     {
-        AddArgument("ScheduleId", 0, UINT8_MAX, &mRequest.scheduleId);
-        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        AddArgument("attr-name", "primary6intensity");
         ModelCommand::AddArguments();
     }
 
+    ~ReadColorControlPrimary6Intensity()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x0000000D) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockClearWeekdayScheduleResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributePrimary6Intensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::DoorLock::Commands::ClearWeekdaySchedule::Type mRequest;
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command ClearYeardaySchedule
- */
-class DoorLockClearYeardaySchedule : public ModelCommand
+class ReportColorControlPrimary6Intensity : public ModelCommand
 {
 public:
-    DoorLockClearYeardaySchedule() : ModelCommand("clear-yearday-schedule")
+    ReportColorControlPrimary6Intensity() : ModelCommand("report")
     {
-        AddArgument("ScheduleId", 0, UINT8_MAX, &mRequest.scheduleId);
-        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        AddArgument("attr-name", "primary6intensity");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportColorControlPrimary6Intensity()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000010) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockClearYeardayScheduleResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
-    }
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
 
-private:
-    chip::app::Clusters::DoorLock::Commands::ClearYeardaySchedule::Type mRequest;
-};
+        ReturnErrorOnFailure(cluster.ReportAttributePrimary6Intensity(onReportCallback->Cancel()));
 
-/*
- * Command GetHolidaySchedule
- */
-class DoorLockGetHolidaySchedule : public ModelCommand
-{
-public:
-    DoorLockGetHolidaySchedule() : ModelCommand("get-holiday-schedule")
-    {
-        AddArgument("ScheduleId", 0, UINT8_MAX, &mRequest.scheduleId);
-        ModelCommand::AddArguments();
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePrimary6Intensity(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000012) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockGetHolidayScheduleResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::DoorLock::Commands::GetHolidaySchedule::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command GetLogRecord
+ * Attribute WhitePointX
  */
-class DoorLockGetLogRecord : public ModelCommand
+class ReadColorControlWhitePointX : public ModelCommand
 {
 public:
-    DoorLockGetLogRecord() : ModelCommand("get-log-record")
+    ReadColorControlWhitePointX() : ModelCommand("read")
     {
-        AddArgument("LogIndex", 0, UINT16_MAX, &mRequest.logIndex);
+        AddArgument("attr-name", "white-point-x");
         ModelCommand::AddArguments();
     }
 
+    ~ReadColorControlWhitePointX()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000004) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockGetLogRecordResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeWhitePointX(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::DoorLock::Commands::GetLogRecord::Type mRequest;
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command GetPin
- */
-class DoorLockGetPin : public ModelCommand
+class WriteColorControlWhitePointX : public ModelCommand
 {
 public:
-    DoorLockGetPin() : ModelCommand("get-pin")
+    WriteColorControlWhitePointX() : ModelCommand("write")
     {
-        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        AddArgument("attr-name", "white-point-x");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
+    ~WriteColorControlWhitePointX()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000006) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockGetPinResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeWhitePointX(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::app::Clusters::DoorLock::Commands::GetPin::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
 };
 
-/*
- * Command GetRfid
- */
-class DoorLockGetRfid : public ModelCommand
+class ReportColorControlWhitePointX : public ModelCommand
 {
 public:
-    DoorLockGetRfid() : ModelCommand("get-rfid")
+    ReportColorControlWhitePointX() : ModelCommand("report")
     {
-        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        AddArgument("attr-name", "white-point-x");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    ~ReportColorControlWhitePointX()
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000017) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockGetRfidResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
     }
 
-private:
-    chip::app::Clusters::DoorLock::Commands::GetRfid::Type mRequest;
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeWhitePointX(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeWhitePointX(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute WhitePointY
+ */
+class ReadColorControlWhitePointY : public ModelCommand
+{
+public:
+    ReadColorControlWhitePointY() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "white-point-y");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlWhitePointY()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeWhitePointY(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteColorControlWhitePointY : public ModelCommand
+{
+public:
+    WriteColorControlWhitePointY() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "white-point-y");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteColorControlWhitePointY()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeWhitePointY(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
+};
+
+class ReportColorControlWhitePointY : public ModelCommand
+{
+public:
+    ReportColorControlWhitePointY() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "white-point-y");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlWhitePointY()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeWhitePointY(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeWhitePointY(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ColorPointRX
+ */
+class ReadColorControlColorPointRX : public ModelCommand
+{
+public:
+    ReadColorControlColorPointRX() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "color-point-rx");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlColorPointRX()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeColorPointRX(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteColorControlColorPointRX : public ModelCommand
+{
+public:
+    WriteColorControlColorPointRX() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "color-point-rx");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteColorControlColorPointRX()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeColorPointRX(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
+};
+
+class ReportColorControlColorPointRX : public ModelCommand
+{
+public:
+    ReportColorControlColorPointRX() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "color-point-rx");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlColorPointRX()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorPointRX(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorPointRX(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ColorPointRY
+ */
+class ReadColorControlColorPointRY : public ModelCommand
+{
+public:
+    ReadColorControlColorPointRY() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "color-point-ry");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlColorPointRY()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeColorPointRY(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteColorControlColorPointRY : public ModelCommand
+{
+public:
+    WriteColorControlColorPointRY() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "color-point-ry");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteColorControlColorPointRY()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeColorPointRY(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
+};
+
+class ReportColorControlColorPointRY : public ModelCommand
+{
+public:
+    ReportColorControlColorPointRY() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "color-point-ry");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlColorPointRY()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorPointRY(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorPointRY(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ColorPointRIntensity
+ */
+class ReadColorControlColorPointRIntensity : public ModelCommand
+{
+public:
+    ReadColorControlColorPointRIntensity() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "color-point-rintensity");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlColorPointRIntensity()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeColorPointRIntensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteColorControlColorPointRIntensity : public ModelCommand
+{
+public:
+    WriteColorControlColorPointRIntensity() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "color-point-rintensity");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteColorControlColorPointRIntensity()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeColorPointRIntensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
+};
+
+class ReportColorControlColorPointRIntensity : public ModelCommand
+{
+public:
+    ReportColorControlColorPointRIntensity() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "color-point-rintensity");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlColorPointRIntensity()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorPointRIntensity(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorPointRIntensity(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                              mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ColorPointGX
+ */
+class ReadColorControlColorPointGX : public ModelCommand
+{
+public:
+    ReadColorControlColorPointGX() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "color-point-gx");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlColorPointGX()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeColorPointGX(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteColorControlColorPointGX : public ModelCommand
+{
+public:
+    WriteColorControlColorPointGX() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "color-point-gx");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteColorControlColorPointGX()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeColorPointGX(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
+};
+
+class ReportColorControlColorPointGX : public ModelCommand
+{
+public:
+    ReportColorControlColorPointGX() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "color-point-gx");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlColorPointGX()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorPointGX(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorPointGX(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ColorPointGY
+ */
+class ReadColorControlColorPointGY : public ModelCommand
+{
+public:
+    ReadColorControlColorPointGY() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "color-point-gy");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlColorPointGY()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeColorPointGY(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteColorControlColorPointGY : public ModelCommand
+{
+public:
+    WriteColorControlColorPointGY() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "color-point-gy");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteColorControlColorPointGY()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeColorPointGY(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
+};
+
+class ReportColorControlColorPointGY : public ModelCommand
+{
+public:
+    ReportColorControlColorPointGY() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "color-point-gy");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlColorPointGY()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorPointGY(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorPointGY(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ColorPointGIntensity
+ */
+class ReadColorControlColorPointGIntensity : public ModelCommand
+{
+public:
+    ReadColorControlColorPointGIntensity() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "color-point-gintensity");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlColorPointGIntensity()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeColorPointGIntensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteColorControlColorPointGIntensity : public ModelCommand
+{
+public:
+    WriteColorControlColorPointGIntensity() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "color-point-gintensity");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteColorControlColorPointGIntensity()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeColorPointGIntensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
+};
+
+class ReportColorControlColorPointGIntensity : public ModelCommand
+{
+public:
+    ReportColorControlColorPointGIntensity() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "color-point-gintensity");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlColorPointGIntensity()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorPointGIntensity(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorPointGIntensity(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                              mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ColorPointBX
+ */
+class ReadColorControlColorPointBX : public ModelCommand
+{
+public:
+    ReadColorControlColorPointBX() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "color-point-bx");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlColorPointBX()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeColorPointBX(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteColorControlColorPointBX : public ModelCommand
+{
+public:
+    WriteColorControlColorPointBX() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "color-point-bx");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteColorControlColorPointBX()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeColorPointBX(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
+};
+
+class ReportColorControlColorPointBX : public ModelCommand
+{
+public:
+    ReportColorControlColorPointBX() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "color-point-bx");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlColorPointBX()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorPointBX(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorPointBX(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ColorPointBY
+ */
+class ReadColorControlColorPointBY : public ModelCommand
+{
+public:
+    ReadColorControlColorPointBY() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "color-point-by");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlColorPointBY()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeColorPointBY(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteColorControlColorPointBY : public ModelCommand
+{
+public:
+    WriteColorControlColorPointBY() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "color-point-by");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteColorControlColorPointBY()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeColorPointBY(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
+};
+
+class ReportColorControlColorPointBY : public ModelCommand
+{
+public:
+    ReportColorControlColorPointBY() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "color-point-by");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlColorPointBY()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorPointBY(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorPointBY(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ColorPointBIntensity
+ */
+class ReadColorControlColorPointBIntensity : public ModelCommand
+{
+public:
+    ReadColorControlColorPointBIntensity() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "color-point-bintensity");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlColorPointBIntensity()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeColorPointBIntensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteColorControlColorPointBIntensity : public ModelCommand
+{
+public:
+    WriteColorControlColorPointBIntensity() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "color-point-bintensity");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteColorControlColorPointBIntensity()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeColorPointBIntensity(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
+};
+
+class ReportColorControlColorPointBIntensity : public ModelCommand
+{
+public:
+    ReportColorControlColorPointBIntensity() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "color-point-bintensity");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlColorPointBIntensity()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorPointBIntensity(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorPointBIntensity(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                              mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute EnhancedCurrentHue
+ */
+class ReadColorControlEnhancedCurrentHue : public ModelCommand
+{
+public:
+    ReadColorControlEnhancedCurrentHue() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "enhanced-current-hue");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlEnhancedCurrentHue()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeEnhancedCurrentHue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportColorControlEnhancedCurrentHue : public ModelCommand
+{
+public:
+    ReportColorControlEnhancedCurrentHue() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "enhanced-current-hue");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlEnhancedCurrentHue()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeEnhancedCurrentHue(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeEnhancedCurrentHue(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                            mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute EnhancedColorMode
+ */
+class ReadColorControlEnhancedColorMode : public ModelCommand
+{
+public:
+    ReadColorControlEnhancedColorMode() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "enhanced-color-mode");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlEnhancedColorMode()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeEnhancedColorMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportColorControlEnhancedColorMode : public ModelCommand
+{
+public:
+    ReportColorControlEnhancedColorMode() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "enhanced-color-mode");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlEnhancedColorMode()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeEnhancedColorMode(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeEnhancedColorMode(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ColorLoopActive
+ */
+class ReadColorControlColorLoopActive : public ModelCommand
+{
+public:
+    ReadColorControlColorLoopActive() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "color-loop-active");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlColorLoopActive()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeColorLoopActive(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportColorControlColorLoopActive : public ModelCommand
+{
+public:
+    ReportColorControlColorLoopActive() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "color-loop-active");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlColorLoopActive()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorLoopActive(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorLoopActive(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ColorLoopDirection
+ */
+class ReadColorControlColorLoopDirection : public ModelCommand
+{
+public:
+    ReadColorControlColorLoopDirection() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "color-loop-direction");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlColorLoopDirection()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeColorLoopDirection(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportColorControlColorLoopDirection : public ModelCommand
+{
+public:
+    ReportColorControlColorLoopDirection() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "color-loop-direction");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlColorLoopDirection()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorLoopDirection(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorLoopDirection(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                            mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ColorLoopTime
+ */
+class ReadColorControlColorLoopTime : public ModelCommand
+{
+public:
+    ReadColorControlColorLoopTime() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "color-loop-time");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlColorLoopTime()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeColorLoopTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportColorControlColorLoopTime : public ModelCommand
+{
+public:
+    ReportColorControlColorLoopTime() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "color-loop-time");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlColorLoopTime()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorLoopTime(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorLoopTime(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ColorLoopStartEnhancedHue
+ */
+class ReadColorControlColorLoopStartEnhancedHue : public ModelCommand
+{
+public:
+    ReadColorControlColorLoopStartEnhancedHue() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "color-loop-start-enhanced-hue");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlColorLoopStartEnhancedHue()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeColorLoopStartEnhancedHue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportColorControlColorLoopStartEnhancedHue : public ModelCommand
+{
+public:
+    ReportColorControlColorLoopStartEnhancedHue() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "color-loop-start-enhanced-hue");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlColorLoopStartEnhancedHue()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorLoopStartEnhancedHue(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorLoopStartEnhancedHue(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                   mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ColorLoopStoredEnhancedHue
+ */
+class ReadColorControlColorLoopStoredEnhancedHue : public ModelCommand
+{
+public:
+    ReadColorControlColorLoopStoredEnhancedHue() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "color-loop-stored-enhanced-hue");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlColorLoopStoredEnhancedHue()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeColorLoopStoredEnhancedHue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportColorControlColorLoopStoredEnhancedHue : public ModelCommand
+{
+public:
+    ReportColorControlColorLoopStoredEnhancedHue() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "color-loop-stored-enhanced-hue");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlColorLoopStoredEnhancedHue()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorLoopStoredEnhancedHue(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorLoopStoredEnhancedHue(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                    mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ColorCapabilities
+ */
+class ReadColorControlColorCapabilities : public ModelCommand
+{
+public:
+    ReadColorControlColorCapabilities() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "color-capabilities");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlColorCapabilities()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeColorCapabilities(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportColorControlColorCapabilities : public ModelCommand
+{
+public:
+    ReportColorControlColorCapabilities() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "color-capabilities");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlColorCapabilities()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorCapabilities(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorCapabilities(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ColorTempPhysicalMin
+ */
+class ReadColorControlColorTempPhysicalMin : public ModelCommand
+{
+public:
+    ReadColorControlColorTempPhysicalMin() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "color-temp-physical-min");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlColorTempPhysicalMin()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeColorTempPhysicalMin(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportColorControlColorTempPhysicalMin : public ModelCommand
+{
+public:
+    ReportColorControlColorTempPhysicalMin() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "color-temp-physical-min");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlColorTempPhysicalMin()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorTempPhysicalMin(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorTempPhysicalMin(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                              mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ColorTempPhysicalMax
+ */
+class ReadColorControlColorTempPhysicalMax : public ModelCommand
+{
+public:
+    ReadColorControlColorTempPhysicalMax() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "color-temp-physical-max");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlColorTempPhysicalMax()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeColorTempPhysicalMax(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportColorControlColorTempPhysicalMax : public ModelCommand
+{
+public:
+    ReportColorControlColorTempPhysicalMax() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "color-temp-physical-max");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlColorTempPhysicalMax()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeColorTempPhysicalMax(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeColorTempPhysicalMax(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                              mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute CoupleColorTempToLevelMinMireds
+ */
+class ReadColorControlCoupleColorTempToLevelMinMireds : public ModelCommand
+{
+public:
+    ReadColorControlCoupleColorTempToLevelMinMireds() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "couple-color-temp-to-level-min-mireds");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlCoupleColorTempToLevelMinMireds()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeCoupleColorTempToLevelMinMireds(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportColorControlCoupleColorTempToLevelMinMireds : public ModelCommand
+{
+public:
+    ReportColorControlCoupleColorTempToLevelMinMireds() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "couple-color-temp-to-level-min-mireds");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlCoupleColorTempToLevelMinMireds()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCoupleColorTempToLevelMinMireds(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCoupleColorTempToLevelMinMireds(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                         mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute StartUpColorTemperatureMireds
+ */
+class ReadColorControlStartUpColorTemperatureMireds : public ModelCommand
+{
+public:
+    ReadColorControlStartUpColorTemperatureMireds() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "start-up-color-temperature-mireds");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlStartUpColorTemperatureMireds()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeStartUpColorTemperatureMireds(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteColorControlStartUpColorTemperatureMireds : public ModelCommand
+{
+public:
+    WriteColorControlStartUpColorTemperatureMireds() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "start-up-color-temperature-mireds");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteColorControlStartUpColorTemperatureMireds()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeStartUpColorTemperatureMireds(onSuccessCallback->Cancel(), onFailureCallback->Cancel(),
+                                                                   mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
+};
+
+class ReportColorControlStartUpColorTemperatureMireds : public ModelCommand
+{
+public:
+    ReportColorControlStartUpColorTemperatureMireds() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "start-up-color-temperature-mireds");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlStartUpColorTemperatureMireds()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeStartUpColorTemperatureMireds(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeStartUpColorTemperatureMireds(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                       mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadColorControlClusterRevision : public ModelCommand
+{
+public:
+    ReadColorControlClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadColorControlClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportColorControlClusterRevision : public ModelCommand
+{
+public:
+    ReportColorControlClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportColorControlClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0300) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ColorControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster ContentLauncher                                             | 0x050A |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * LaunchContent                                                     |   0x00 |
+| * LaunchURL                                                         |   0x01 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * AcceptsHeaderList                                                 | 0x0000 |
+| * SupportedStreamingTypes                                           | 0x0001 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Command LaunchContent
+ */
+class ContentLauncherLaunchContent : public ModelCommand
+{
+public:
+    ContentLauncherLaunchContent() : ModelCommand("launch-content")
+    {
+        AddArgument("AutoPlay", 0, 1, &mRequest.autoPlay);
+        AddArgument("Data", &mRequest.data);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0000050A) command (0x00000000) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnContentLauncherLaunchContentResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::ContentLauncher::Commands::LaunchContent::Type mRequest;
+};
+
+/*
+ * Command LaunchURL
+ */
+class ContentLauncherLaunchURL : public ModelCommand
+{
+public:
+    ContentLauncherLaunchURL() : ModelCommand("launch-url")
+    {
+        AddArgument("ContentURL", &mRequest.contentURL);
+        AddArgument("DisplayString", &mRequest.displayString);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0000050A) command (0x00000001) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnContentLauncherLaunchURLResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::ContentLauncher::Commands::LaunchURL::Type mRequest;
+};
+
+/*
+ * Attribute AcceptsHeaderList
+ */
+class ReadContentLauncherAcceptsHeaderList : public ModelCommand
+{
+public:
+    ReadContentLauncherAcceptsHeaderList() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "accepts-header-list");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadContentLauncherAcceptsHeaderList()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x050A) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ContentLauncherCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeAcceptsHeaderList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<ContentLauncherAcceptsHeaderListListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<ContentLauncherAcceptsHeaderListListAttributeCallback>(
+            OnContentLauncherAcceptsHeaderListListAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+/*
+ * Attribute SupportedStreamingTypes
+ */
+class ReadContentLauncherSupportedStreamingTypes : public ModelCommand
+{
+public:
+    ReadContentLauncherSupportedStreamingTypes() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "supported-streaming-types");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadContentLauncherSupportedStreamingTypes()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x050A) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ContentLauncherCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeSupportedStreamingTypes(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<ContentLauncherSupportedStreamingTypesListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<ContentLauncherSupportedStreamingTypesListAttributeCallback>(
+            OnContentLauncherSupportedStreamingTypesListAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadContentLauncherClusterRevision : public ModelCommand
+{
+public:
+    ReadContentLauncherClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadContentLauncherClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x050A) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ContentLauncherCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportContentLauncherClusterRevision : public ModelCommand
+{
+public:
+    ReportContentLauncherClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportContentLauncherClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x050A) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ContentLauncherCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster Descriptor                                                  | 0x001D |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * DeviceList                                                        | 0x0000 |
+| * ServerList                                                        | 0x0001 |
+| * ClientList                                                        | 0x0002 |
+| * PartsList                                                         | 0x0003 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Attribute DeviceList
+ */
+class ReadDescriptorDeviceList : public ModelCommand
+{
+public:
+    ReadDescriptorDeviceList() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "device-list");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadDescriptorDeviceList()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x001D) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::DescriptorCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeDeviceList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<DescriptorDeviceListListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DescriptorDeviceListListAttributeCallback>(OnDescriptorDeviceListListAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+/*
+ * Attribute ServerList
+ */
+class ReadDescriptorServerList : public ModelCommand
+{
+public:
+    ReadDescriptorServerList() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "server-list");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadDescriptorServerList()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x001D) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::DescriptorCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeServerList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<DescriptorServerListListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DescriptorServerListListAttributeCallback>(OnDescriptorServerListListAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+/*
+ * Attribute ClientList
+ */
+class ReadDescriptorClientList : public ModelCommand
+{
+public:
+    ReadDescriptorClientList() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "client-list");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadDescriptorClientList()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x001D) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::DescriptorCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClientList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<DescriptorClientListListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DescriptorClientListListAttributeCallback>(OnDescriptorClientListListAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+/*
+ * Attribute PartsList
+ */
+class ReadDescriptorPartsList : public ModelCommand
+{
+public:
+    ReadDescriptorPartsList() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "parts-list");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadDescriptorPartsList()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x001D) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::DescriptorCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributePartsList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<DescriptorPartsListListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DescriptorPartsListListAttributeCallback>(OnDescriptorPartsListListAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadDescriptorClusterRevision : public ModelCommand
+{
+public:
+    ReadDescriptorClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadDescriptorClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x001D) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::DescriptorCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportDescriptorClusterRevision : public ModelCommand
+{
+public:
+    ReportDescriptorClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportDescriptorClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x001D) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::DescriptorCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster DiagnosticLogs                                              | 0x0032 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * RetrieveLogsRequest                                               |   0x00 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Command RetrieveLogsRequest
+ */
+class DiagnosticLogsRetrieveLogsRequest : public ModelCommand
+{
+public:
+    DiagnosticLogsRetrieveLogsRequest() : ModelCommand("retrieve-logs-request")
+    {
+        AddArgument("Intent", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.intent)> *>(&mRequest.intent));
+        AddArgument("RequestedProtocol", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.requestedProtocol)> *>(&mRequest.requestedProtocol));
+        AddArgument("TransferFileDesignator", &mRequest.transferFileDesignator);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000032) command (0x00000000) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDiagnosticLogsRetrieveLogsResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::DiagnosticLogs::Commands::RetrieveLogsRequest::Type mRequest;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster DoorLock                                                    | 0x0101 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * ClearAllPins                                                      |   0x08 |
+| * ClearAllRfids                                                     |   0x19 |
+| * ClearHolidaySchedule                                              |   0x13 |
+| * ClearPin                                                          |   0x07 |
+| * ClearRfid                                                         |   0x18 |
+| * ClearWeekdaySchedule                                              |   0x0D |
+| * ClearYeardaySchedule                                              |   0x10 |
+| * GetHolidaySchedule                                                |   0x12 |
+| * GetLogRecord                                                      |   0x04 |
+| * GetPin                                                            |   0x06 |
+| * GetRfid                                                           |   0x17 |
+| * GetUserType                                                       |   0x15 |
+| * GetWeekdaySchedule                                                |   0x0C |
+| * GetYeardaySchedule                                                |   0x0F |
+| * LockDoor                                                          |   0x00 |
+| * SetHolidaySchedule                                                |   0x11 |
+| * SetPin                                                            |   0x05 |
+| * SetRfid                                                           |   0x16 |
+| * SetUserType                                                       |   0x14 |
+| * SetWeekdaySchedule                                                |   0x0B |
+| * SetYeardaySchedule                                                |   0x0E |
+| * UnlockDoor                                                        |   0x01 |
+| * UnlockWithTimeout                                                 |   0x03 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * LockState                                                         | 0x0000 |
+| * LockType                                                          | 0x0001 |
+| * ActuatorEnabled                                                   | 0x0002 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Command ClearAllPins
+ */
+class DoorLockClearAllPins : public ModelCommand
+{
+public:
+    DoorLockClearAllPins() : ModelCommand("clear-all-pins") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000008) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockClearAllPinsResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::ClearAllPins::Type mRequest;
+};
+
+/*
+ * Command ClearAllRfids
+ */
+class DoorLockClearAllRfids : public ModelCommand
+{
+public:
+    DoorLockClearAllRfids() : ModelCommand("clear-all-rfids") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000019) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockClearAllRfidsResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::ClearAllRfids::Type mRequest;
+};
+
+/*
+ * Command ClearHolidaySchedule
+ */
+class DoorLockClearHolidaySchedule : public ModelCommand
+{
+public:
+    DoorLockClearHolidaySchedule() : ModelCommand("clear-holiday-schedule")
+    {
+        AddArgument("ScheduleId", 0, UINT8_MAX, &mRequest.scheduleId);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000013) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockClearHolidayScheduleResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::ClearHolidaySchedule::Type mRequest;
+};
+
+/*
+ * Command ClearPin
+ */
+class DoorLockClearPin : public ModelCommand
+{
+public:
+    DoorLockClearPin() : ModelCommand("clear-pin")
+    {
+        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000007) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockClearPinResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::ClearPin::Type mRequest;
+};
+
+/*
+ * Command ClearRfid
+ */
+class DoorLockClearRfid : public ModelCommand
+{
+public:
+    DoorLockClearRfid() : ModelCommand("clear-rfid")
+    {
+        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000018) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockClearRfidResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::ClearRfid::Type mRequest;
+};
+
+/*
+ * Command ClearWeekdaySchedule
+ */
+class DoorLockClearWeekdaySchedule : public ModelCommand
+{
+public:
+    DoorLockClearWeekdaySchedule() : ModelCommand("clear-weekday-schedule")
+    {
+        AddArgument("ScheduleId", 0, UINT8_MAX, &mRequest.scheduleId);
+        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x0000000D) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockClearWeekdayScheduleResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::ClearWeekdaySchedule::Type mRequest;
+};
+
+/*
+ * Command ClearYeardaySchedule
+ */
+class DoorLockClearYeardaySchedule : public ModelCommand
+{
+public:
+    DoorLockClearYeardaySchedule() : ModelCommand("clear-yearday-schedule")
+    {
+        AddArgument("ScheduleId", 0, UINT8_MAX, &mRequest.scheduleId);
+        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000010) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockClearYeardayScheduleResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::ClearYeardaySchedule::Type mRequest;
+};
+
+/*
+ * Command GetHolidaySchedule
+ */
+class DoorLockGetHolidaySchedule : public ModelCommand
+{
+public:
+    DoorLockGetHolidaySchedule() : ModelCommand("get-holiday-schedule")
+    {
+        AddArgument("ScheduleId", 0, UINT8_MAX, &mRequest.scheduleId);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000012) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockGetHolidayScheduleResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::GetHolidaySchedule::Type mRequest;
+};
+
+/*
+ * Command GetLogRecord
+ */
+class DoorLockGetLogRecord : public ModelCommand
+{
+public:
+    DoorLockGetLogRecord() : ModelCommand("get-log-record")
+    {
+        AddArgument("LogIndex", 0, UINT16_MAX, &mRequest.logIndex);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000004) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockGetLogRecordResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::GetLogRecord::Type mRequest;
+};
+
+/*
+ * Command GetPin
+ */
+class DoorLockGetPin : public ModelCommand
+{
+public:
+    DoorLockGetPin() : ModelCommand("get-pin")
+    {
+        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000006) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockGetPinResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::GetPin::Type mRequest;
+};
+
+/*
+ * Command GetRfid
+ */
+class DoorLockGetRfid : public ModelCommand
+{
+public:
+    DoorLockGetRfid() : ModelCommand("get-rfid")
+    {
+        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000017) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockGetRfidResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::GetRfid::Type mRequest;
+};
+
+/*
+ * Command GetUserType
+ */
+class DoorLockGetUserType : public ModelCommand
+{
+public:
+    DoorLockGetUserType() : ModelCommand("get-user-type")
+    {
+        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000015) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockGetUserTypeResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::GetUserType::Type mRequest;
+};
+
+/*
+ * Command GetWeekdaySchedule
+ */
+class DoorLockGetWeekdaySchedule : public ModelCommand
+{
+public:
+    DoorLockGetWeekdaySchedule() : ModelCommand("get-weekday-schedule")
+    {
+        AddArgument("ScheduleId", 0, UINT8_MAX, &mRequest.scheduleId);
+        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x0000000C) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockGetWeekdayScheduleResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::GetWeekdaySchedule::Type mRequest;
+};
+
+/*
+ * Command GetYeardaySchedule
+ */
+class DoorLockGetYeardaySchedule : public ModelCommand
+{
+public:
+    DoorLockGetYeardaySchedule() : ModelCommand("get-yearday-schedule")
+    {
+        AddArgument("ScheduleId", 0, UINT8_MAX, &mRequest.scheduleId);
+        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x0000000F) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockGetYeardayScheduleResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::GetYeardaySchedule::Type mRequest;
+};
+
+/*
+ * Command LockDoor
+ */
+class DoorLockLockDoor : public ModelCommand
+{
+public:
+    DoorLockLockDoor() : ModelCommand("lock-door")
+    {
+        AddArgument("Pin", &mRequest.pin);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000000) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockLockDoorResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::LockDoor::Type mRequest;
+};
+
+/*
+ * Command SetHolidaySchedule
+ */
+class DoorLockSetHolidaySchedule : public ModelCommand
+{
+public:
+    DoorLockSetHolidaySchedule() : ModelCommand("set-holiday-schedule")
+    {
+        AddArgument("ScheduleId", 0, UINT8_MAX, &mRequest.scheduleId);
+        AddArgument("LocalStartTime", 0, UINT32_MAX, &mRequest.localStartTime);
+        AddArgument("LocalEndTime", 0, UINT32_MAX, &mRequest.localEndTime);
+        AddArgument("OperatingModeDuringHoliday", 0, UINT8_MAX, &mRequest.operatingModeDuringHoliday);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000011) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockSetHolidayScheduleResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::SetHolidaySchedule::Type mRequest;
+};
+
+/*
+ * Command SetPin
+ */
+class DoorLockSetPin : public ModelCommand
+{
+public:
+    DoorLockSetPin() : ModelCommand("set-pin")
+    {
+        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        AddArgument("UserStatus", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.userStatus)> *>(&mRequest.userStatus));
+        AddArgument("UserType", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.userType)> *>(&mRequest.userType));
+        AddArgument("Pin", &mRequest.pin);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000005) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockSetPinResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::SetPin::Type mRequest;
+};
+
+/*
+ * Command SetRfid
+ */
+class DoorLockSetRfid : public ModelCommand
+{
+public:
+    DoorLockSetRfid() : ModelCommand("set-rfid")
+    {
+        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        AddArgument("UserStatus", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.userStatus)> *>(&mRequest.userStatus));
+        AddArgument("UserType", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.userType)> *>(&mRequest.userType));
+        AddArgument("Id", &mRequest.id);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000016) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockSetRfidResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::SetRfid::Type mRequest;
+};
+
+/*
+ * Command SetUserType
+ */
+class DoorLockSetUserType : public ModelCommand
+{
+public:
+    DoorLockSetUserType() : ModelCommand("set-user-type")
+    {
+        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        AddArgument("UserType", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.userType)> *>(&mRequest.userType));
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000014) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockSetUserTypeResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::SetUserType::Type mRequest;
+};
+
+/*
+ * Command SetWeekdaySchedule
+ */
+class DoorLockSetWeekdaySchedule : public ModelCommand
+{
+public:
+    DoorLockSetWeekdaySchedule() : ModelCommand("set-weekday-schedule")
+    {
+        AddArgument("ScheduleId", 0, UINT8_MAX, &mRequest.scheduleId);
+        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        AddArgument(
+            "DaysMask", 0, UINT8_MAX,
+            reinterpret_cast<std::underlying_type_t<chip::app::Clusters::DoorLock::DoorLockDayOfWeek> *>(&mRequest.daysMask));
+        AddArgument("StartHour", 0, UINT8_MAX, &mRequest.startHour);
+        AddArgument("StartMinute", 0, UINT8_MAX, &mRequest.startMinute);
+        AddArgument("EndHour", 0, UINT8_MAX, &mRequest.endHour);
+        AddArgument("EndMinute", 0, UINT8_MAX, &mRequest.endMinute);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x0000000B) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockSetWeekdayScheduleResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::SetWeekdaySchedule::Type mRequest;
+};
+
+/*
+ * Command SetYeardaySchedule
+ */
+class DoorLockSetYeardaySchedule : public ModelCommand
+{
+public:
+    DoorLockSetYeardaySchedule() : ModelCommand("set-yearday-schedule")
+    {
+        AddArgument("ScheduleId", 0, UINT8_MAX, &mRequest.scheduleId);
+        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        AddArgument("LocalStartTime", 0, UINT32_MAX, &mRequest.localStartTime);
+        AddArgument("LocalEndTime", 0, UINT32_MAX, &mRequest.localEndTime);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x0000000E) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockSetYeardayScheduleResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::SetYeardaySchedule::Type mRequest;
+};
+
+/*
+ * Command UnlockDoor
+ */
+class DoorLockUnlockDoor : public ModelCommand
+{
+public:
+    DoorLockUnlockDoor() : ModelCommand("unlock-door")
+    {
+        AddArgument("Pin", &mRequest.pin);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000001) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockUnlockDoorResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::UnlockDoor::Type mRequest;
+};
+
+/*
+ * Command UnlockWithTimeout
+ */
+class DoorLockUnlockWithTimeout : public ModelCommand
+{
+public:
+    DoorLockUnlockWithTimeout() : ModelCommand("unlock-with-timeout")
+    {
+        AddArgument("TimeoutInSeconds", 0, UINT16_MAX, &mRequest.timeoutInSeconds);
+        AddArgument("Pin", &mRequest.pin);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000003) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDoorLockUnlockWithTimeoutResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::DoorLock::Commands::UnlockWithTimeout::Type mRequest;
+};
+
+/*
+ * Attribute LockState
+ */
+class ReadDoorLockLockState : public ModelCommand
+{
+public:
+    ReadDoorLockLockState() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "lock-state");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadDoorLockLockState()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0101) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::DoorLockCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeLockState(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportDoorLockLockState : public ModelCommand
+{
+public:
+    ReportDoorLockLockState() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "lock-state");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportDoorLockLockState()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0101) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::DoorLockCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeLockState(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeLockState(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute LockType
+ */
+class ReadDoorLockLockType : public ModelCommand
+{
+public:
+    ReadDoorLockLockType() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "lock-type");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadDoorLockLockType()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0101) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::DoorLockCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeLockType(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportDoorLockLockType : public ModelCommand
+{
+public:
+    ReportDoorLockLockType() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "lock-type");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportDoorLockLockType()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0101) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::DoorLockCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeLockType(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeLockType(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ActuatorEnabled
+ */
+class ReadDoorLockActuatorEnabled : public ModelCommand
+{
+public:
+    ReadDoorLockActuatorEnabled() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "actuator-enabled");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadDoorLockActuatorEnabled()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0101) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::DoorLockCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeActuatorEnabled(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportDoorLockActuatorEnabled : public ModelCommand
+{
+public:
+    ReportDoorLockActuatorEnabled() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "actuator-enabled");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportDoorLockActuatorEnabled()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0101) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::DoorLockCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeActuatorEnabled(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeActuatorEnabled(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadDoorLockClusterRevision : public ModelCommand
+{
+public:
+    ReadDoorLockClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadDoorLockClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0101) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::DoorLockCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportDoorLockClusterRevision : public ModelCommand
+{
+public:
+    ReportDoorLockClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportDoorLockClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0101) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::DoorLockCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster ElectricalMeasurement                                       | 0x0B04 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * MeasurementType                                                   | 0x0000 |
+| * TotalActivePower                                                  | 0x0304 |
+| * RmsVoltage                                                        | 0x0505 |
+| * RmsVoltageMin                                                     | 0x0506 |
+| * RmsVoltageMax                                                     | 0x0507 |
+| * RmsCurrent                                                        | 0x0508 |
+| * RmsCurrentMin                                                     | 0x0509 |
+| * RmsCurrentMax                                                     | 0x050A |
+| * ActivePower                                                       | 0x050B |
+| * ActivePowerMin                                                    | 0x050C |
+| * ActivePowerMax                                                    | 0x050D |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Attribute MeasurementType
+ */
+class ReadElectricalMeasurementMeasurementType : public ModelCommand
+{
+public:
+    ReadElectricalMeasurementMeasurementType() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "measurement-type");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadElectricalMeasurementMeasurementType()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMeasurementType(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportElectricalMeasurementMeasurementType : public ModelCommand
+{
+public:
+    ReportElectricalMeasurementMeasurementType() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "measurement-type");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportElectricalMeasurementMeasurementType()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMeasurementType(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMeasurementType(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute TotalActivePower
+ */
+class ReadElectricalMeasurementTotalActivePower : public ModelCommand
+{
+public:
+    ReadElectricalMeasurementTotalActivePower() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "total-active-power");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadElectricalMeasurementTotalActivePower()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeTotalActivePower(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int32sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32sAttributeCallback>(OnInt32sAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportElectricalMeasurementTotalActivePower : public ModelCommand
+{
+public:
+    ReportElectricalMeasurementTotalActivePower() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "total-active-power");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportElectricalMeasurementTotalActivePower()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTotalActivePower(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTotalActivePower(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32sAttributeCallback>(OnInt32sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute RmsVoltage
+ */
+class ReadElectricalMeasurementRmsVoltage : public ModelCommand
+{
+public:
+    ReadElectricalMeasurementRmsVoltage() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "rms-voltage");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadElectricalMeasurementRmsVoltage()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeRmsVoltage(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportElectricalMeasurementRmsVoltage : public ModelCommand
+{
+public:
+    ReportElectricalMeasurementRmsVoltage() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "rms-voltage");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportElectricalMeasurementRmsVoltage()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRmsVoltage(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRmsVoltage(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute RmsVoltageMin
+ */
+class ReadElectricalMeasurementRmsVoltageMin : public ModelCommand
+{
+public:
+    ReadElectricalMeasurementRmsVoltageMin() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "rms-voltage-min");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadElectricalMeasurementRmsVoltageMin()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeRmsVoltageMin(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportElectricalMeasurementRmsVoltageMin : public ModelCommand
+{
+public:
+    ReportElectricalMeasurementRmsVoltageMin() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "rms-voltage-min");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportElectricalMeasurementRmsVoltageMin()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRmsVoltageMin(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRmsVoltageMin(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute RmsVoltageMax
+ */
+class ReadElectricalMeasurementRmsVoltageMax : public ModelCommand
+{
+public:
+    ReadElectricalMeasurementRmsVoltageMax() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "rms-voltage-max");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadElectricalMeasurementRmsVoltageMax()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeRmsVoltageMax(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportElectricalMeasurementRmsVoltageMax : public ModelCommand
+{
+public:
+    ReportElectricalMeasurementRmsVoltageMax() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "rms-voltage-max");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportElectricalMeasurementRmsVoltageMax()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRmsVoltageMax(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRmsVoltageMax(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute RmsCurrent
+ */
+class ReadElectricalMeasurementRmsCurrent : public ModelCommand
+{
+public:
+    ReadElectricalMeasurementRmsCurrent() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "rms-current");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadElectricalMeasurementRmsCurrent()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeRmsCurrent(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportElectricalMeasurementRmsCurrent : public ModelCommand
+{
+public:
+    ReportElectricalMeasurementRmsCurrent() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "rms-current");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportElectricalMeasurementRmsCurrent()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRmsCurrent(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRmsCurrent(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute RmsCurrentMin
+ */
+class ReadElectricalMeasurementRmsCurrentMin : public ModelCommand
+{
+public:
+    ReadElectricalMeasurementRmsCurrentMin() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "rms-current-min");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadElectricalMeasurementRmsCurrentMin()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeRmsCurrentMin(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportElectricalMeasurementRmsCurrentMin : public ModelCommand
+{
+public:
+    ReportElectricalMeasurementRmsCurrentMin() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "rms-current-min");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportElectricalMeasurementRmsCurrentMin()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRmsCurrentMin(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRmsCurrentMin(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute RmsCurrentMax
+ */
+class ReadElectricalMeasurementRmsCurrentMax : public ModelCommand
+{
+public:
+    ReadElectricalMeasurementRmsCurrentMax() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "rms-current-max");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadElectricalMeasurementRmsCurrentMax()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeRmsCurrentMax(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportElectricalMeasurementRmsCurrentMax : public ModelCommand
+{
+public:
+    ReportElectricalMeasurementRmsCurrentMax() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "rms-current-max");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportElectricalMeasurementRmsCurrentMax()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRmsCurrentMax(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRmsCurrentMax(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ActivePower
+ */
+class ReadElectricalMeasurementActivePower : public ModelCommand
+{
+public:
+    ReadElectricalMeasurementActivePower() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "active-power");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadElectricalMeasurementActivePower()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeActivePower(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportElectricalMeasurementActivePower : public ModelCommand
+{
+public:
+    ReportElectricalMeasurementActivePower() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "active-power");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportElectricalMeasurementActivePower()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeActivePower(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeActivePower(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ActivePowerMin
+ */
+class ReadElectricalMeasurementActivePowerMin : public ModelCommand
+{
+public:
+    ReadElectricalMeasurementActivePowerMin() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "active-power-min");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadElectricalMeasurementActivePowerMin()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeActivePowerMin(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportElectricalMeasurementActivePowerMin : public ModelCommand
+{
+public:
+    ReportElectricalMeasurementActivePowerMin() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "active-power-min");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportElectricalMeasurementActivePowerMin()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeActivePowerMin(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeActivePowerMin(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ActivePowerMax
+ */
+class ReadElectricalMeasurementActivePowerMax : public ModelCommand
+{
+public:
+    ReadElectricalMeasurementActivePowerMax() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "active-power-max");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadElectricalMeasurementActivePowerMax()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeActivePowerMax(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportElectricalMeasurementActivePowerMax : public ModelCommand
+{
+public:
+    ReportElectricalMeasurementActivePowerMax() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "active-power-max");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportElectricalMeasurementActivePowerMax()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeActivePowerMax(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeActivePowerMax(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadElectricalMeasurementClusterRevision : public ModelCommand
+{
+public:
+    ReadElectricalMeasurementClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadElectricalMeasurementClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportElectricalMeasurementClusterRevision : public ModelCommand
+{
+public:
+    ReportElectricalMeasurementClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportElectricalMeasurementClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ElectricalMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster EthernetNetworkDiagnostics                                  | 0x0037 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * ResetCounts                                                       |   0x00 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * PHYRate                                                           | 0x0000 |
+| * FullDuplex                                                        | 0x0001 |
+| * PacketRxCount                                                     | 0x0002 |
+| * PacketTxCount                                                     | 0x0003 |
+| * TxErrCount                                                        | 0x0004 |
+| * CollisionCount                                                    | 0x0005 |
+| * OverrunCount                                                      | 0x0006 |
+| * CarrierDetect                                                     | 0x0007 |
+| * TimeSinceReset                                                    | 0x0008 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Command ResetCounts
+ */
+class EthernetNetworkDiagnosticsResetCounts : public ModelCommand
+{
+public:
+    EthernetNetworkDiagnosticsResetCounts() : ModelCommand("reset-counts") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000037) command (0x00000000) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::EthernetNetworkDiagnostics::Commands::ResetCounts::Type mRequest;
+};
+
+/*
+ * Attribute PHYRate
+ */
+class ReadEthernetNetworkDiagnosticsPHYRate : public ModelCommand
+{
+public:
+    ReadEthernetNetworkDiagnosticsPHYRate() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "phyrate");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadEthernetNetworkDiagnosticsPHYRate()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributePHYRate(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportEthernetNetworkDiagnosticsPHYRate : public ModelCommand
+{
+public:
+    ReportEthernetNetworkDiagnosticsPHYRate() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "phyrate");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportEthernetNetworkDiagnosticsPHYRate()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributePHYRate(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePHYRate(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute FullDuplex
+ */
+class ReadEthernetNetworkDiagnosticsFullDuplex : public ModelCommand
+{
+public:
+    ReadEthernetNetworkDiagnosticsFullDuplex() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "full-duplex");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadEthernetNetworkDiagnosticsFullDuplex()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeFullDuplex(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportEthernetNetworkDiagnosticsFullDuplex : public ModelCommand
+{
+public:
+    ReportEthernetNetworkDiagnosticsFullDuplex() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "full-duplex");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportEthernetNetworkDiagnosticsFullDuplex()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeFullDuplex(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeFullDuplex(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute PacketRxCount
+ */
+class ReadEthernetNetworkDiagnosticsPacketRxCount : public ModelCommand
+{
+public:
+    ReadEthernetNetworkDiagnosticsPacketRxCount() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "packet-rx-count");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadEthernetNetworkDiagnosticsPacketRxCount()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributePacketRxCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportEthernetNetworkDiagnosticsPacketRxCount : public ModelCommand
+{
+public:
+    ReportEthernetNetworkDiagnosticsPacketRxCount() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "packet-rx-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportEthernetNetworkDiagnosticsPacketRxCount()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributePacketRxCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePacketRxCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute PacketTxCount
+ */
+class ReadEthernetNetworkDiagnosticsPacketTxCount : public ModelCommand
+{
+public:
+    ReadEthernetNetworkDiagnosticsPacketTxCount() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "packet-tx-count");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadEthernetNetworkDiagnosticsPacketTxCount()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributePacketTxCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportEthernetNetworkDiagnosticsPacketTxCount : public ModelCommand
+{
+public:
+    ReportEthernetNetworkDiagnosticsPacketTxCount() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "packet-tx-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportEthernetNetworkDiagnosticsPacketTxCount()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributePacketTxCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePacketTxCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute TxErrCount
+ */
+class ReadEthernetNetworkDiagnosticsTxErrCount : public ModelCommand
+{
+public:
+    ReadEthernetNetworkDiagnosticsTxErrCount() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "tx-err-count");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadEthernetNetworkDiagnosticsTxErrCount()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeTxErrCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportEthernetNetworkDiagnosticsTxErrCount : public ModelCommand
+{
+public:
+    ReportEthernetNetworkDiagnosticsTxErrCount() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "tx-err-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportEthernetNetworkDiagnosticsTxErrCount()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTxErrCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTxErrCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute CollisionCount
+ */
+class ReadEthernetNetworkDiagnosticsCollisionCount : public ModelCommand
+{
+public:
+    ReadEthernetNetworkDiagnosticsCollisionCount() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "collision-count");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadEthernetNetworkDiagnosticsCollisionCount()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeCollisionCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportEthernetNetworkDiagnosticsCollisionCount : public ModelCommand
+{
+public:
+    ReportEthernetNetworkDiagnosticsCollisionCount() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "collision-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportEthernetNetworkDiagnosticsCollisionCount()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCollisionCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCollisionCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute OverrunCount
+ */
+class ReadEthernetNetworkDiagnosticsOverrunCount : public ModelCommand
+{
+public:
+    ReadEthernetNetworkDiagnosticsOverrunCount() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "overrun-count");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadEthernetNetworkDiagnosticsOverrunCount()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeOverrunCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportEthernetNetworkDiagnosticsOverrunCount : public ModelCommand
+{
+public:
+    ReportEthernetNetworkDiagnosticsOverrunCount() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "overrun-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportEthernetNetworkDiagnosticsOverrunCount()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOverrunCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOverrunCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute CarrierDetect
+ */
+class ReadEthernetNetworkDiagnosticsCarrierDetect : public ModelCommand
+{
+public:
+    ReadEthernetNetworkDiagnosticsCarrierDetect() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "carrier-detect");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadEthernetNetworkDiagnosticsCarrierDetect()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeCarrierDetect(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportEthernetNetworkDiagnosticsCarrierDetect : public ModelCommand
+{
+public:
+    ReportEthernetNetworkDiagnosticsCarrierDetect() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "carrier-detect");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportEthernetNetworkDiagnosticsCarrierDetect()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCarrierDetect(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCarrierDetect(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute TimeSinceReset
+ */
+class ReadEthernetNetworkDiagnosticsTimeSinceReset : public ModelCommand
+{
+public:
+    ReadEthernetNetworkDiagnosticsTimeSinceReset() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "time-since-reset");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadEthernetNetworkDiagnosticsTimeSinceReset()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeTimeSinceReset(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportEthernetNetworkDiagnosticsTimeSinceReset : public ModelCommand
+{
+public:
+    ReportEthernetNetworkDiagnosticsTimeSinceReset() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "time-since-reset");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportEthernetNetworkDiagnosticsTimeSinceReset()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTimeSinceReset(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTimeSinceReset(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadEthernetNetworkDiagnosticsClusterRevision : public ModelCommand
+{
+public:
+    ReadEthernetNetworkDiagnosticsClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadEthernetNetworkDiagnosticsClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportEthernetNetworkDiagnosticsClusterRevision : public ModelCommand
+{
+public:
+    ReportEthernetNetworkDiagnosticsClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportEthernetNetworkDiagnosticsClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster FixedLabel                                                  | 0x0040 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * LabelList                                                         | 0x0000 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Attribute LabelList
+ */
+class ReadFixedLabelLabelList : public ModelCommand
+{
+public:
+    ReadFixedLabelLabelList() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "label-list");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadFixedLabelLabelList()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0040) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::FixedLabelCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeLabelList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<FixedLabelLabelListListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<FixedLabelLabelListListAttributeCallback>(OnFixedLabelLabelListListAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadFixedLabelClusterRevision : public ModelCommand
+{
+public:
+    ReadFixedLabelClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadFixedLabelClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0040) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::FixedLabelCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportFixedLabelClusterRevision : public ModelCommand
+{
+public:
+    ReportFixedLabelClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportFixedLabelClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0040) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::FixedLabelCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster FlowMeasurement                                             | 0x0404 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * MeasuredValue                                                     | 0x0000 |
+| * MinMeasuredValue                                                  | 0x0001 |
+| * MaxMeasuredValue                                                  | 0x0002 |
+| * Tolerance                                                         | 0x0003 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Attribute MeasuredValue
+ */
+class ReadFlowMeasurementMeasuredValue : public ModelCommand
+{
+public:
+    ReadFlowMeasurementMeasuredValue() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "measured-value");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadFlowMeasurementMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0404) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::FlowMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportFlowMeasurementMeasuredValue : public ModelCommand
+{
+public:
+    ReportFlowMeasurementMeasuredValue() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "measured-value");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportFlowMeasurementMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0404) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::FlowMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMeasuredValue(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMeasuredValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute MinMeasuredValue
+ */
+class ReadFlowMeasurementMinMeasuredValue : public ModelCommand
+{
+public:
+    ReadFlowMeasurementMinMeasuredValue() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "min-measured-value");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadFlowMeasurementMinMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0404) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::FlowMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMinMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportFlowMeasurementMinMeasuredValue : public ModelCommand
+{
+public:
+    ReportFlowMeasurementMinMeasuredValue() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "min-measured-value");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportFlowMeasurementMinMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0404) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::FlowMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMinMeasuredValue(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMinMeasuredValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute MaxMeasuredValue
+ */
+class ReadFlowMeasurementMaxMeasuredValue : public ModelCommand
+{
+public:
+    ReadFlowMeasurementMaxMeasuredValue() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "max-measured-value");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadFlowMeasurementMaxMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0404) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::FlowMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMaxMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportFlowMeasurementMaxMeasuredValue : public ModelCommand
+{
+public:
+    ReportFlowMeasurementMaxMeasuredValue() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "max-measured-value");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportFlowMeasurementMaxMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0404) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::FlowMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMaxMeasuredValue(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMaxMeasuredValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute Tolerance
+ */
+class ReadFlowMeasurementTolerance : public ModelCommand
+{
+public:
+    ReadFlowMeasurementTolerance() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "tolerance");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadFlowMeasurementTolerance()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0404) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::FlowMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeTolerance(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportFlowMeasurementTolerance : public ModelCommand
+{
+public:
+    ReportFlowMeasurementTolerance() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "tolerance");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportFlowMeasurementTolerance()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0404) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::FlowMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTolerance(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTolerance(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadFlowMeasurementClusterRevision : public ModelCommand
+{
+public:
+    ReadFlowMeasurementClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadFlowMeasurementClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0404) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::FlowMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportFlowMeasurementClusterRevision : public ModelCommand
+{
+public:
+    ReportFlowMeasurementClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportFlowMeasurementClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0404) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::FlowMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster GeneralCommissioning                                        | 0x0030 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * ArmFailSafe                                                       |   0x00 |
+| * CommissioningComplete                                             |   0x04 |
+| * SetRegulatoryConfig                                               |   0x02 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * Breadcrumb                                                        | 0x0000 |
+| * BasicCommissioningInfoList                                        | 0x0001 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Command ArmFailSafe
+ */
+class GeneralCommissioningArmFailSafe : public ModelCommand
+{
+public:
+    GeneralCommissioningArmFailSafe() : ModelCommand("arm-fail-safe")
+    {
+        AddArgument("ExpiryLengthSeconds", 0, UINT16_MAX, &mRequest.expiryLengthSeconds);
+        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
+        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000030) command (0x00000000) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnGeneralCommissioningArmFailSafeResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::GeneralCommissioning::Commands::ArmFailSafe::Type mRequest;
+};
+
+/*
+ * Command CommissioningComplete
+ */
+class GeneralCommissioningCommissioningComplete : public ModelCommand
+{
+public:
+    GeneralCommissioningCommissioningComplete() : ModelCommand("commissioning-complete") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000030) command (0x00000004) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnGeneralCommissioningCommissioningCompleteResponseSuccess,
+                                               OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::GeneralCommissioning::Commands::CommissioningComplete::Type mRequest;
+};
+
+/*
+ * Command SetRegulatoryConfig
+ */
+class GeneralCommissioningSetRegulatoryConfig : public ModelCommand
+{
+public:
+    GeneralCommissioningSetRegulatoryConfig() : ModelCommand("set-regulatory-config")
+    {
+        AddArgument("Location", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.location)> *>(&mRequest.location));
+        AddArgument("CountryCode", &mRequest.countryCode);
+        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
+        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000030) command (0x00000002) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnGeneralCommissioningSetRegulatoryConfigResponseSuccess,
+                                               OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::GeneralCommissioning::Commands::SetRegulatoryConfig::Type mRequest;
+};
+
+/*
+ * Attribute Breadcrumb
+ */
+class ReadGeneralCommissioningBreadcrumb : public ModelCommand
+{
+public:
+    ReadGeneralCommissioningBreadcrumb() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "breadcrumb");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadGeneralCommissioningBreadcrumb()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0030) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralCommissioningCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeBreadcrumb(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteGeneralCommissioningBreadcrumb : public ModelCommand
+{
+public:
+    WriteGeneralCommissioningBreadcrumb() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "breadcrumb");
+        AddArgument("attr-value", 0, UINT64_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteGeneralCommissioningBreadcrumb()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0030) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralCommissioningCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeBreadcrumb(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint64_t mValue;
+};
+
+class ReportGeneralCommissioningBreadcrumb : public ModelCommand
+{
+public:
+    ReportGeneralCommissioningBreadcrumb() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "breadcrumb");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportGeneralCommissioningBreadcrumb()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0030) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralCommissioningCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeBreadcrumb(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeBreadcrumb(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute BasicCommissioningInfoList
+ */
+class ReadGeneralCommissioningBasicCommissioningInfoList : public ModelCommand
+{
+public:
+    ReadGeneralCommissioningBasicCommissioningInfoList() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "basic-commissioning-info-list");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadGeneralCommissioningBasicCommissioningInfoList()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0030) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralCommissioningCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeBasicCommissioningInfoList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<GeneralCommissioningBasicCommissioningInfoListListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<GeneralCommissioningBasicCommissioningInfoListListAttributeCallback>(
+            OnGeneralCommissioningBasicCommissioningInfoListListAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadGeneralCommissioningClusterRevision : public ModelCommand
+{
+public:
+    ReadGeneralCommissioningClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadGeneralCommissioningClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0030) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralCommissioningCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportGeneralCommissioningClusterRevision : public ModelCommand
+{
+public:
+    ReportGeneralCommissioningClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportGeneralCommissioningClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0030) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralCommissioningCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster GeneralDiagnostics                                          | 0x0033 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * NetworkInterfaces                                                 | 0x0000 |
+| * RebootCount                                                       | 0x0001 |
+| * UpTime                                                            | 0x0002 |
+| * TotalOperationalHours                                             | 0x0003 |
+| * BootReasons                                                       | 0x0004 |
+| * ActiveHardwareFaults                                              | 0x0005 |
+| * ActiveRadioFaults                                                 | 0x0006 |
+| * ActiveNetworkFaults                                               | 0x0007 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Attribute NetworkInterfaces
+ */
+class ReadGeneralDiagnosticsNetworkInterfaces : public ModelCommand
+{
+public:
+    ReadGeneralDiagnosticsNetworkInterfaces() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "network-interfaces");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadGeneralDiagnosticsNetworkInterfaces()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeNetworkInterfaces(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<GeneralDiagnosticsNetworkInterfacesListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<GeneralDiagnosticsNetworkInterfacesListAttributeCallback>(
+            OnGeneralDiagnosticsNetworkInterfacesListAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+/*
+ * Attribute RebootCount
+ */
+class ReadGeneralDiagnosticsRebootCount : public ModelCommand
+{
+public:
+    ReadGeneralDiagnosticsRebootCount() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "reboot-count");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadGeneralDiagnosticsRebootCount()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeRebootCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportGeneralDiagnosticsRebootCount : public ModelCommand
+{
+public:
+    ReportGeneralDiagnosticsRebootCount() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "reboot-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportGeneralDiagnosticsRebootCount()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRebootCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRebootCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute UpTime
+ */
+class ReadGeneralDiagnosticsUpTime : public ModelCommand
+{
+public:
+    ReadGeneralDiagnosticsUpTime() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "up-time");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadGeneralDiagnosticsUpTime()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeUpTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportGeneralDiagnosticsUpTime : public ModelCommand
+{
+public:
+    ReportGeneralDiagnosticsUpTime() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "up-time");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportGeneralDiagnosticsUpTime()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeUpTime(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeUpTime(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute TotalOperationalHours
+ */
+class ReadGeneralDiagnosticsTotalOperationalHours : public ModelCommand
+{
+public:
+    ReadGeneralDiagnosticsTotalOperationalHours() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "total-operational-hours");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadGeneralDiagnosticsTotalOperationalHours()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeTotalOperationalHours(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportGeneralDiagnosticsTotalOperationalHours : public ModelCommand
+{
+public:
+    ReportGeneralDiagnosticsTotalOperationalHours() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "total-operational-hours");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportGeneralDiagnosticsTotalOperationalHours()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTotalOperationalHours(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTotalOperationalHours(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                               mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute BootReasons
+ */
+class ReadGeneralDiagnosticsBootReasons : public ModelCommand
+{
+public:
+    ReadGeneralDiagnosticsBootReasons() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "boot-reasons");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadGeneralDiagnosticsBootReasons()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeBootReasons(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportGeneralDiagnosticsBootReasons : public ModelCommand
+{
+public:
+    ReportGeneralDiagnosticsBootReasons() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "boot-reasons");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportGeneralDiagnosticsBootReasons()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeBootReasons(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeBootReasons(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ActiveHardwareFaults
+ */
+class ReadGeneralDiagnosticsActiveHardwareFaults : public ModelCommand
+{
+public:
+    ReadGeneralDiagnosticsActiveHardwareFaults() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "active-hardware-faults");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadGeneralDiagnosticsActiveHardwareFaults()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeActiveHardwareFaults(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<GeneralDiagnosticsActiveHardwareFaultsListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<GeneralDiagnosticsActiveHardwareFaultsListAttributeCallback>(
+            OnGeneralDiagnosticsActiveHardwareFaultsListAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+/*
+ * Attribute ActiveRadioFaults
+ */
+class ReadGeneralDiagnosticsActiveRadioFaults : public ModelCommand
+{
+public:
+    ReadGeneralDiagnosticsActiveRadioFaults() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "active-radio-faults");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadGeneralDiagnosticsActiveRadioFaults()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeActiveRadioFaults(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<GeneralDiagnosticsActiveRadioFaultsListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<GeneralDiagnosticsActiveRadioFaultsListAttributeCallback>(
+            OnGeneralDiagnosticsActiveRadioFaultsListAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+/*
+ * Attribute ActiveNetworkFaults
+ */
+class ReadGeneralDiagnosticsActiveNetworkFaults : public ModelCommand
+{
+public:
+    ReadGeneralDiagnosticsActiveNetworkFaults() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "active-network-faults");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadGeneralDiagnosticsActiveNetworkFaults()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeActiveNetworkFaults(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<GeneralDiagnosticsActiveNetworkFaultsListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<GeneralDiagnosticsActiveNetworkFaultsListAttributeCallback>(
+            OnGeneralDiagnosticsActiveNetworkFaultsListAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadGeneralDiagnosticsClusterRevision : public ModelCommand
+{
+public:
+    ReadGeneralDiagnosticsClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadGeneralDiagnosticsClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportGeneralDiagnosticsClusterRevision : public ModelCommand
+{
+public:
+    ReportGeneralDiagnosticsClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportGeneralDiagnosticsClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GeneralDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster GroupKeyManagement                                          | 0xF004 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * Groups                                                            | 0x0000 |
+| * GroupKeys                                                         | 0x0001 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Attribute Groups
+ */
+class ReadGroupKeyManagementGroups : public ModelCommand
+{
+public:
+    ReadGroupKeyManagementGroups() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "groups");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadGroupKeyManagementGroups()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0xF004) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GroupKeyManagementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeGroups(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<GroupKeyManagementGroupsListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<GroupKeyManagementGroupsListAttributeCallback>(OnGroupKeyManagementGroupsListAttributeResponse,
+                                                                                    this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+/*
+ * Attribute GroupKeys
+ */
+class ReadGroupKeyManagementGroupKeys : public ModelCommand
+{
+public:
+    ReadGroupKeyManagementGroupKeys() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "group-keys");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadGroupKeyManagementGroupKeys()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0xF004) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GroupKeyManagementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeGroupKeys(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<GroupKeyManagementGroupKeysListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<GroupKeyManagementGroupKeysListAttributeCallback>(
+            OnGroupKeyManagementGroupKeysListAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadGroupKeyManagementClusterRevision : public ModelCommand
+{
+public:
+    ReadGroupKeyManagementClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadGroupKeyManagementClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0xF004) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GroupKeyManagementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportGroupKeyManagementClusterRevision : public ModelCommand
+{
+public:
+    ReportGroupKeyManagementClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportGroupKeyManagementClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0xF004) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GroupKeyManagementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster Groups                                                      | 0x0004 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * AddGroup                                                          |   0x00 |
+| * AddGroupIfIdentifying                                             |   0x05 |
+| * GetGroupMembership                                                |   0x02 |
+| * RemoveAllGroups                                                   |   0x04 |
+| * RemoveGroup                                                       |   0x03 |
+| * ViewGroup                                                         |   0x01 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * NameSupport                                                       | 0x0000 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Command AddGroup
+ */
+class GroupsAddGroup : public ModelCommand
+{
+public:
+    GroupsAddGroup() : ModelCommand("add-group")
+    {
+        AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
+        AddArgument("GroupName", &mRequest.groupName);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000004) command (0x00000000) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnGroupsAddGroupResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::Groups::Commands::AddGroup::Type mRequest;
+};
+
+/*
+ * Command AddGroupIfIdentifying
+ */
+class GroupsAddGroupIfIdentifying : public ModelCommand
+{
+public:
+    GroupsAddGroupIfIdentifying() : ModelCommand("add-group-if-identifying")
+    {
+        AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
+        AddArgument("GroupName", &mRequest.groupName);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000004) command (0x00000005) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::Groups::Commands::AddGroupIfIdentifying::Type mRequest;
+};
+
+/*
+ * Command GetGroupMembership
+ */
+class GroupsGetGroupMembership : public ModelCommand
+{
+public:
+    GroupsGetGroupMembership() : ModelCommand("get-group-membership")
+    {
+        // groupList Array parsing is not supported yet
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000004) command (0x00000002) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnGroupsGetGroupMembershipResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::Groups::Commands::GetGroupMembership::Type mRequest;
+};
+
+/*
+ * Command RemoveAllGroups
+ */
+class GroupsRemoveAllGroups : public ModelCommand
+{
+public:
+    GroupsRemoveAllGroups() : ModelCommand("remove-all-groups") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000004) command (0x00000004) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::Groups::Commands::RemoveAllGroups::Type mRequest;
+};
+
+/*
+ * Command RemoveGroup
+ */
+class GroupsRemoveGroup : public ModelCommand
+{
+public:
+    GroupsRemoveGroup() : ModelCommand("remove-group")
+    {
+        AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000004) command (0x00000003) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnGroupsRemoveGroupResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::Groups::Commands::RemoveGroup::Type mRequest;
+};
+
+/*
+ * Command ViewGroup
+ */
+class GroupsViewGroup : public ModelCommand
+{
+public:
+    GroupsViewGroup() : ModelCommand("view-group")
+    {
+        AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000004) command (0x00000001) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnGroupsViewGroupResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::Groups::Commands::ViewGroup::Type mRequest;
+};
+
+/*
+ * Attribute NameSupport
+ */
+class ReadGroupsNameSupport : public ModelCommand
+{
+public:
+    ReadGroupsNameSupport() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "name-support");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadGroupsNameSupport()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0004) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GroupsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeNameSupport(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportGroupsNameSupport : public ModelCommand
+{
+public:
+    ReportGroupsNameSupport() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "name-support");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportGroupsNameSupport()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0004) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GroupsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeNameSupport(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeNameSupport(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadGroupsClusterRevision : public ModelCommand
+{
+public:
+    ReadGroupsClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadGroupsClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0004) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GroupsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportGroupsClusterRevision : public ModelCommand
+{
+public:
+    ReportGroupsClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportGroupsClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0004) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::GroupsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster Identify                                                    | 0x0003 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * Identify                                                          |   0x00 |
+| * IdentifyQuery                                                     |   0x01 |
+| * TriggerEffect                                                     |   0x40 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * IdentifyTime                                                      | 0x0000 |
+| * IdentifyType                                                      | 0x0001 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Command Identify
+ */
+class IdentifyIdentify : public ModelCommand
+{
+public:
+    IdentifyIdentify() : ModelCommand("identify")
+    {
+        AddArgument("IdentifyTime", 0, UINT16_MAX, &mRequest.identifyTime);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000003) command (0x00000000) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::Identify::Commands::Identify::Type mRequest;
+};
+
+/*
+ * Command IdentifyQuery
+ */
+class IdentifyIdentifyQuery : public ModelCommand
+{
+public:
+    IdentifyIdentifyQuery() : ModelCommand("identify-query") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000003) command (0x00000001) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnIdentifyIdentifyQueryResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::Identify::Commands::IdentifyQuery::Type mRequest;
+};
+
+/*
+ * Command TriggerEffect
+ */
+class IdentifyTriggerEffect : public ModelCommand
+{
+public:
+    IdentifyTriggerEffect() : ModelCommand("trigger-effect")
+    {
+        AddArgument("EffectIdentifier", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.effectIdentifier)> *>(&mRequest.effectIdentifier));
+        AddArgument("EffectVariant", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.effectVariant)> *>(&mRequest.effectVariant));
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000003) command (0x00000040) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::Identify::Commands::TriggerEffect::Type mRequest;
+};
+
+/*
+ * Attribute IdentifyTime
+ */
+class ReadIdentifyIdentifyTime : public ModelCommand
+{
+public:
+    ReadIdentifyIdentifyTime() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "identify-time");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadIdentifyIdentifyTime()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0003) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::IdentifyCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeIdentifyTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteIdentifyIdentifyTime : public ModelCommand
+{
+public:
+    WriteIdentifyIdentifyTime() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "identify-time");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteIdentifyIdentifyTime()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0003) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::IdentifyCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeIdentifyTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
+};
+
+class ReportIdentifyIdentifyTime : public ModelCommand
+{
+public:
+    ReportIdentifyIdentifyTime() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "identify-time");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportIdentifyIdentifyTime()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0003) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::IdentifyCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeIdentifyTime(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeIdentifyTime(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute IdentifyType
+ */
+class ReadIdentifyIdentifyType : public ModelCommand
+{
+public:
+    ReadIdentifyIdentifyType() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "identify-type");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadIdentifyIdentifyType()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0003) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::IdentifyCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeIdentifyType(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportIdentifyIdentifyType : public ModelCommand
+{
+public:
+    ReportIdentifyIdentifyType() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "identify-type");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportIdentifyIdentifyType()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0003) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::IdentifyCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeIdentifyType(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeIdentifyType(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadIdentifyClusterRevision : public ModelCommand
+{
+public:
+    ReadIdentifyClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadIdentifyClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0003) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::IdentifyCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportIdentifyClusterRevision : public ModelCommand
+{
+public:
+    ReportIdentifyClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportIdentifyClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0003) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::IdentifyCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster IlluminanceMeasurement                                      | 0x0400 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * MeasuredValue                                                     | 0x0000 |
+| * MinMeasuredValue                                                  | 0x0001 |
+| * MaxMeasuredValue                                                  | 0x0002 |
+| * Tolerance                                                         | 0x0003 |
+| * LightSensorType                                                   | 0x0004 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Attribute MeasuredValue
+ */
+class ReadIlluminanceMeasurementMeasuredValue : public ModelCommand
+{
+public:
+    ReadIlluminanceMeasurementMeasuredValue() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "measured-value");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadIlluminanceMeasurementMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0400) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::IlluminanceMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportIlluminanceMeasurementMeasuredValue : public ModelCommand
+{
+public:
+    ReportIlluminanceMeasurementMeasuredValue() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "measured-value");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportIlluminanceMeasurementMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0400) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::IlluminanceMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMeasuredValue(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMeasuredValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute MinMeasuredValue
+ */
+class ReadIlluminanceMeasurementMinMeasuredValue : public ModelCommand
+{
+public:
+    ReadIlluminanceMeasurementMinMeasuredValue() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "min-measured-value");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadIlluminanceMeasurementMinMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0400) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::IlluminanceMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMinMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportIlluminanceMeasurementMinMeasuredValue : public ModelCommand
+{
+public:
+    ReportIlluminanceMeasurementMinMeasuredValue() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "min-measured-value");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportIlluminanceMeasurementMinMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0400) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::IlluminanceMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMinMeasuredValue(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMinMeasuredValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute MaxMeasuredValue
+ */
+class ReadIlluminanceMeasurementMaxMeasuredValue : public ModelCommand
+{
+public:
+    ReadIlluminanceMeasurementMaxMeasuredValue() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "max-measured-value");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadIlluminanceMeasurementMaxMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0400) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::IlluminanceMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMaxMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportIlluminanceMeasurementMaxMeasuredValue : public ModelCommand
+{
+public:
+    ReportIlluminanceMeasurementMaxMeasuredValue() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "max-measured-value");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportIlluminanceMeasurementMaxMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0400) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::IlluminanceMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMaxMeasuredValue(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMaxMeasuredValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute Tolerance
+ */
+class ReadIlluminanceMeasurementTolerance : public ModelCommand
+{
+public:
+    ReadIlluminanceMeasurementTolerance() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "tolerance");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadIlluminanceMeasurementTolerance()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0400) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::IlluminanceMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeTolerance(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportIlluminanceMeasurementTolerance : public ModelCommand
+{
+public:
+    ReportIlluminanceMeasurementTolerance() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "tolerance");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportIlluminanceMeasurementTolerance()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0400) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::IlluminanceMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTolerance(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTolerance(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute LightSensorType
+ */
+class ReadIlluminanceMeasurementLightSensorType : public ModelCommand
+{
+public:
+    ReadIlluminanceMeasurementLightSensorType() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "light-sensor-type");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadIlluminanceMeasurementLightSensorType()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0400) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::IlluminanceMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeLightSensorType(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportIlluminanceMeasurementLightSensorType : public ModelCommand
+{
+public:
+    ReportIlluminanceMeasurementLightSensorType() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "light-sensor-type");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportIlluminanceMeasurementLightSensorType()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0400) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::IlluminanceMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeLightSensorType(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeLightSensorType(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadIlluminanceMeasurementClusterRevision : public ModelCommand
+{
+public:
+    ReadIlluminanceMeasurementClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadIlluminanceMeasurementClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0400) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::IlluminanceMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportIlluminanceMeasurementClusterRevision : public ModelCommand
+{
+public:
+    ReportIlluminanceMeasurementClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportIlluminanceMeasurementClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0400) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::IlluminanceMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster KeypadInput                                                 | 0x0509 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * SendKey                                                           |   0x00 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Command SendKey
+ */
+class KeypadInputSendKey : public ModelCommand
+{
+public:
+    KeypadInputSendKey() : ModelCommand("send-key")
+    {
+        AddArgument("KeyCode", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.keyCode)> *>(&mRequest.keyCode));
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000509) command (0x00000000) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnKeypadInputSendKeyResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::KeypadInput::Commands::SendKey::Type mRequest;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadKeypadInputClusterRevision : public ModelCommand
+{
+public:
+    ReadKeypadInputClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadKeypadInputClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0509) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::KeypadInputCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportKeypadInputClusterRevision : public ModelCommand
+{
+public:
+    ReportKeypadInputClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportKeypadInputClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0509) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::KeypadInputCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster LevelControl                                                | 0x0008 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * Move                                                              |   0x01 |
+| * MoveToLevel                                                       |   0x00 |
+| * MoveToLevelWithOnOff                                              |   0x04 |
+| * MoveWithOnOff                                                     |   0x05 |
+| * Step                                                              |   0x02 |
+| * StepWithOnOff                                                     |   0x06 |
+| * Stop                                                              |   0x03 |
+| * StopWithOnOff                                                     |   0x07 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * CurrentLevel                                                      | 0x0000 |
+| * RemainingTime                                                     | 0x0001 |
+| * MinLevel                                                          | 0x0002 |
+| * MaxLevel                                                          | 0x0003 |
+| * CurrentFrequency                                                  | 0x0004 |
+| * MinFrequency                                                      | 0x0005 |
+| * MaxFrequency                                                      | 0x0006 |
+| * Options                                                           | 0x000F |
+| * OnOffTransitionTime                                               | 0x0010 |
+| * OnLevel                                                           | 0x0011 |
+| * OnTransitionTime                                                  | 0x0012 |
+| * OffTransitionTime                                                 | 0x0013 |
+| * DefaultMoveRate                                                   | 0x0014 |
+| * StartUpCurrentLevel                                               | 0x4000 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Command Move
+ */
+class LevelControlMove : public ModelCommand
+{
+public:
+    LevelControlMove() : ModelCommand("move")
+    {
+        AddArgument("MoveMode", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.moveMode)> *>(&mRequest.moveMode));
+        AddArgument("Rate", 0, UINT8_MAX, &mRequest.rate);
+        AddArgument("OptionMask", 0, UINT8_MAX, &mRequest.optionMask);
+        AddArgument("OptionOverride", 0, UINT8_MAX, &mRequest.optionOverride);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000008) command (0x00000001) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::LevelControl::Commands::Move::Type mRequest;
+};
+
+/*
+ * Command MoveToLevel
+ */
+class LevelControlMoveToLevel : public ModelCommand
+{
+public:
+    LevelControlMoveToLevel() : ModelCommand("move-to-level")
+    {
+        AddArgument("Level", 0, UINT8_MAX, &mRequest.level);
+        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
+        AddArgument("OptionMask", 0, UINT8_MAX, &mRequest.optionMask);
+        AddArgument("OptionOverride", 0, UINT8_MAX, &mRequest.optionOverride);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000008) command (0x00000000) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::LevelControl::Commands::MoveToLevel::Type mRequest;
+};
+
+/*
+ * Command MoveToLevelWithOnOff
+ */
+class LevelControlMoveToLevelWithOnOff : public ModelCommand
+{
+public:
+    LevelControlMoveToLevelWithOnOff() : ModelCommand("move-to-level-with-on-off")
+    {
+        AddArgument("Level", 0, UINT8_MAX, &mRequest.level);
+        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000008) command (0x00000004) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::LevelControl::Commands::MoveToLevelWithOnOff::Type mRequest;
+};
+
+/*
+ * Command MoveWithOnOff
+ */
+class LevelControlMoveWithOnOff : public ModelCommand
+{
+public:
+    LevelControlMoveWithOnOff() : ModelCommand("move-with-on-off")
+    {
+        AddArgument("MoveMode", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.moveMode)> *>(&mRequest.moveMode));
+        AddArgument("Rate", 0, UINT8_MAX, &mRequest.rate);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000008) command (0x00000005) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::LevelControl::Commands::MoveWithOnOff::Type mRequest;
+};
+
+/*
+ * Command Step
+ */
+class LevelControlStep : public ModelCommand
+{
+public:
+    LevelControlStep() : ModelCommand("step")
+    {
+        AddArgument("StepMode", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.stepMode)> *>(&mRequest.stepMode));
+        AddArgument("StepSize", 0, UINT8_MAX, &mRequest.stepSize);
+        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
+        AddArgument("OptionMask", 0, UINT8_MAX, &mRequest.optionMask);
+        AddArgument("OptionOverride", 0, UINT8_MAX, &mRequest.optionOverride);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000008) command (0x00000002) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::LevelControl::Commands::Step::Type mRequest;
+};
+
+/*
+ * Command StepWithOnOff
+ */
+class LevelControlStepWithOnOff : public ModelCommand
+{
+public:
+    LevelControlStepWithOnOff() : ModelCommand("step-with-on-off")
+    {
+        AddArgument("StepMode", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.stepMode)> *>(&mRequest.stepMode));
+        AddArgument("StepSize", 0, UINT8_MAX, &mRequest.stepSize);
+        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000008) command (0x00000006) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::LevelControl::Commands::StepWithOnOff::Type mRequest;
+};
+
+/*
+ * Command Stop
+ */
+class LevelControlStop : public ModelCommand
+{
+public:
+    LevelControlStop() : ModelCommand("stop")
+    {
+        AddArgument("OptionMask", 0, UINT8_MAX, &mRequest.optionMask);
+        AddArgument("OptionOverride", 0, UINT8_MAX, &mRequest.optionOverride);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000008) command (0x00000003) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::LevelControl::Commands::Stop::Type mRequest;
+};
+
+/*
+ * Command StopWithOnOff
+ */
+class LevelControlStopWithOnOff : public ModelCommand
+{
+public:
+    LevelControlStopWithOnOff() : ModelCommand("stop-with-on-off") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000008) command (0x00000007) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::LevelControl::Commands::StopWithOnOff::Type mRequest;
+};
+
+/*
+ * Attribute CurrentLevel
+ */
+class ReadLevelControlCurrentLevel : public ModelCommand
+{
+public:
+    ReadLevelControlCurrentLevel() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "current-level");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadLevelControlCurrentLevel()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeCurrentLevel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportLevelControlCurrentLevel : public ModelCommand
+{
+public:
+    ReportLevelControlCurrentLevel() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "current-level");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportLevelControlCurrentLevel()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentLevel(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentLevel(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute RemainingTime
+ */
+class ReadLevelControlRemainingTime : public ModelCommand
+{
+public:
+    ReadLevelControlRemainingTime() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "remaining-time");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadLevelControlRemainingTime()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeRemainingTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportLevelControlRemainingTime : public ModelCommand
+{
+public:
+    ReportLevelControlRemainingTime() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "remaining-time");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportLevelControlRemainingTime()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRemainingTime(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRemainingTime(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute MinLevel
+ */
+class ReadLevelControlMinLevel : public ModelCommand
+{
+public:
+    ReadLevelControlMinLevel() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "min-level");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadLevelControlMinLevel()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMinLevel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportLevelControlMinLevel : public ModelCommand
+{
+public:
+    ReportLevelControlMinLevel() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "min-level");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportLevelControlMinLevel()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMinLevel(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMinLevel(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute MaxLevel
+ */
+class ReadLevelControlMaxLevel : public ModelCommand
+{
+public:
+    ReadLevelControlMaxLevel() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "max-level");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadLevelControlMaxLevel()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMaxLevel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportLevelControlMaxLevel : public ModelCommand
+{
+public:
+    ReportLevelControlMaxLevel() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "max-level");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportLevelControlMaxLevel()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMaxLevel(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMaxLevel(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute CurrentFrequency
+ */
+class ReadLevelControlCurrentFrequency : public ModelCommand
+{
+public:
+    ReadLevelControlCurrentFrequency() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "current-frequency");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadLevelControlCurrentFrequency()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeCurrentFrequency(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportLevelControlCurrentFrequency : public ModelCommand
+{
+public:
+    ReportLevelControlCurrentFrequency() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "current-frequency");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportLevelControlCurrentFrequency()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentFrequency(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentFrequency(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute MinFrequency
+ */
+class ReadLevelControlMinFrequency : public ModelCommand
+{
+public:
+    ReadLevelControlMinFrequency() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "min-frequency");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadLevelControlMinFrequency()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMinFrequency(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportLevelControlMinFrequency : public ModelCommand
+{
+public:
+    ReportLevelControlMinFrequency() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "min-frequency");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportLevelControlMinFrequency()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMinFrequency(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMinFrequency(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute MaxFrequency
+ */
+class ReadLevelControlMaxFrequency : public ModelCommand
+{
+public:
+    ReadLevelControlMaxFrequency() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "max-frequency");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadLevelControlMaxFrequency()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMaxFrequency(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportLevelControlMaxFrequency : public ModelCommand
+{
+public:
+    ReportLevelControlMaxFrequency() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "max-frequency");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportLevelControlMaxFrequency()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMaxFrequency(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMaxFrequency(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute Options
+ */
+class ReadLevelControlOptions : public ModelCommand
+{
+public:
+    ReadLevelControlOptions() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "options");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadLevelControlOptions()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeOptions(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteLevelControlOptions : public ModelCommand
+{
+public:
+    WriteLevelControlOptions() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "options");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteLevelControlOptions()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeOptions(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
+};
+
+class ReportLevelControlOptions : public ModelCommand
+{
+public:
+    ReportLevelControlOptions() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "options");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportLevelControlOptions()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOptions(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOptions(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute OnOffTransitionTime
+ */
+class ReadLevelControlOnOffTransitionTime : public ModelCommand
+{
+public:
+    ReadLevelControlOnOffTransitionTime() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "on-off-transition-time");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadLevelControlOnOffTransitionTime()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeOnOffTransitionTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteLevelControlOnOffTransitionTime : public ModelCommand
+{
+public:
+    WriteLevelControlOnOffTransitionTime() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "on-off-transition-time");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteLevelControlOnOffTransitionTime()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeOnOffTransitionTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
+};
+
+class ReportLevelControlOnOffTransitionTime : public ModelCommand
+{
+public:
+    ReportLevelControlOnOffTransitionTime() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "on-off-transition-time");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportLevelControlOnOffTransitionTime()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOnOffTransitionTime(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOnOffTransitionTime(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                             mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute OnLevel
+ */
+class ReadLevelControlOnLevel : public ModelCommand
+{
+public:
+    ReadLevelControlOnLevel() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "on-level");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadLevelControlOnLevel()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeOnLevel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteLevelControlOnLevel : public ModelCommand
+{
+public:
+    WriteLevelControlOnLevel() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "on-level");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteLevelControlOnLevel()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeOnLevel(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
+};
+
+class ReportLevelControlOnLevel : public ModelCommand
+{
+public:
+    ReportLevelControlOnLevel() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "on-level");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportLevelControlOnLevel()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOnLevel(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOnLevel(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute OnTransitionTime
+ */
+class ReadLevelControlOnTransitionTime : public ModelCommand
+{
+public:
+    ReadLevelControlOnTransitionTime() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "on-transition-time");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadLevelControlOnTransitionTime()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeOnTransitionTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteLevelControlOnTransitionTime : public ModelCommand
+{
+public:
+    WriteLevelControlOnTransitionTime() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "on-transition-time");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteLevelControlOnTransitionTime()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeOnTransitionTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
+};
+
+class ReportLevelControlOnTransitionTime : public ModelCommand
+{
+public:
+    ReportLevelControlOnTransitionTime() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "on-transition-time");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportLevelControlOnTransitionTime()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOnTransitionTime(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOnTransitionTime(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute OffTransitionTime
+ */
+class ReadLevelControlOffTransitionTime : public ModelCommand
+{
+public:
+    ReadLevelControlOffTransitionTime() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "off-transition-time");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadLevelControlOffTransitionTime()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeOffTransitionTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteLevelControlOffTransitionTime : public ModelCommand
+{
+public:
+    WriteLevelControlOffTransitionTime() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "off-transition-time");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteLevelControlOffTransitionTime()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeOffTransitionTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
+};
+
+class ReportLevelControlOffTransitionTime : public ModelCommand
+{
+public:
+    ReportLevelControlOffTransitionTime() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "off-transition-time");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportLevelControlOffTransitionTime()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOffTransitionTime(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOffTransitionTime(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute DefaultMoveRate
+ */
+class ReadLevelControlDefaultMoveRate : public ModelCommand
+{
+public:
+    ReadLevelControlDefaultMoveRate() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "default-move-rate");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadLevelControlDefaultMoveRate()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeDefaultMoveRate(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteLevelControlDefaultMoveRate : public ModelCommand
+{
+public:
+    WriteLevelControlDefaultMoveRate() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "default-move-rate");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteLevelControlDefaultMoveRate()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeDefaultMoveRate(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
+};
+
+class ReportLevelControlDefaultMoveRate : public ModelCommand
+{
+public:
+    ReportLevelControlDefaultMoveRate() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "default-move-rate");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportLevelControlDefaultMoveRate()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeDefaultMoveRate(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeDefaultMoveRate(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute StartUpCurrentLevel
+ */
+class ReadLevelControlStartUpCurrentLevel : public ModelCommand
+{
+public:
+    ReadLevelControlStartUpCurrentLevel() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "start-up-current-level");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadLevelControlStartUpCurrentLevel()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeStartUpCurrentLevel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteLevelControlStartUpCurrentLevel : public ModelCommand
+{
+public:
+    WriteLevelControlStartUpCurrentLevel() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "start-up-current-level");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteLevelControlStartUpCurrentLevel()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeStartUpCurrentLevel(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
+};
+
+class ReportLevelControlStartUpCurrentLevel : public ModelCommand
+{
+public:
+    ReportLevelControlStartUpCurrentLevel() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "start-up-current-level");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportLevelControlStartUpCurrentLevel()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeStartUpCurrentLevel(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeStartUpCurrentLevel(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                             mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadLevelControlClusterRevision : public ModelCommand
+{
+public:
+    ReadLevelControlClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadLevelControlClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportLevelControlClusterRevision : public ModelCommand
+{
+public:
+    ReportLevelControlClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportLevelControlClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LevelControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster LowPower                                                    | 0x0508 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * Sleep                                                             |   0x00 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Command Sleep
+ */
+class LowPowerSleep : public ModelCommand
+{
+public:
+    LowPowerSleep() : ModelCommand("sleep") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000508) command (0x00000000) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::LowPower::Commands::Sleep::Type mRequest;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadLowPowerClusterRevision : public ModelCommand
+{
+public:
+    ReadLowPowerClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadLowPowerClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0508) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LowPowerCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportLowPowerClusterRevision : public ModelCommand
+{
+public:
+    ReportLowPowerClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportLowPowerClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0508) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::LowPowerCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster MediaInput                                                  | 0x0507 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * HideInputStatus                                                   |   0x02 |
+| * RenameInput                                                       |   0x03 |
+| * SelectInput                                                       |   0x00 |
+| * ShowInputStatus                                                   |   0x01 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * MediaInputList                                                    | 0x0000 |
+| * CurrentMediaInput                                                 | 0x0001 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Command HideInputStatus
+ */
+class MediaInputHideInputStatus : public ModelCommand
+{
+public:
+    MediaInputHideInputStatus() : ModelCommand("hide-input-status") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000507) command (0x00000002) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::MediaInput::Commands::HideInputStatus::Type mRequest;
+};
+
+/*
+ * Command RenameInput
+ */
+class MediaInputRenameInput : public ModelCommand
+{
+public:
+    MediaInputRenameInput() : ModelCommand("rename-input")
+    {
+        AddArgument("Index", 0, UINT8_MAX, &mRequest.index);
+        AddArgument("Name", &mRequest.name);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000507) command (0x00000003) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::MediaInput::Commands::RenameInput::Type mRequest;
+};
+
+/*
+ * Command SelectInput
+ */
+class MediaInputSelectInput : public ModelCommand
+{
+public:
+    MediaInputSelectInput() : ModelCommand("select-input")
+    {
+        AddArgument("Index", 0, UINT8_MAX, &mRequest.index);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000507) command (0x00000000) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::MediaInput::Commands::SelectInput::Type mRequest;
+};
+
+/*
+ * Command ShowInputStatus
+ */
+class MediaInputShowInputStatus : public ModelCommand
+{
+public:
+    MediaInputShowInputStatus() : ModelCommand("show-input-status") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000507) command (0x00000001) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::MediaInput::Commands::ShowInputStatus::Type mRequest;
+};
+
+/*
+ * Attribute MediaInputList
+ */
+class ReadMediaInputMediaInputList : public ModelCommand
+{
+public:
+    ReadMediaInputMediaInputList() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "media-input-list");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadMediaInputMediaInputList()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0507) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaInputCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMediaInputList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<MediaInputMediaInputListListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<MediaInputMediaInputListListAttributeCallback>(OnMediaInputMediaInputListListAttributeResponse,
+                                                                                    this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+/*
+ * Attribute CurrentMediaInput
+ */
+class ReadMediaInputCurrentMediaInput : public ModelCommand
+{
+public:
+    ReadMediaInputCurrentMediaInput() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "current-media-input");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadMediaInputCurrentMediaInput()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0507) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaInputCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeCurrentMediaInput(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportMediaInputCurrentMediaInput : public ModelCommand
+{
+public:
+    ReportMediaInputCurrentMediaInput() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "current-media-input");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportMediaInputCurrentMediaInput()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0507) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaInputCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentMediaInput(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentMediaInput(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadMediaInputClusterRevision : public ModelCommand
+{
+public:
+    ReadMediaInputClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadMediaInputClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0507) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaInputCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportMediaInputClusterRevision : public ModelCommand
+{
+public:
+    ReportMediaInputClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportMediaInputClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0507) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaInputCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster MediaPlayback                                               | 0x0506 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * MediaFastForward                                                  |   0x07 |
+| * MediaNext                                                         |   0x05 |
+| * MediaPause                                                        |   0x01 |
+| * MediaPlay                                                         |   0x00 |
+| * MediaPrevious                                                     |   0x04 |
+| * MediaRewind                                                       |   0x06 |
+| * MediaSeek                                                         |   0x0A |
+| * MediaSkipBackward                                                 |   0x09 |
+| * MediaSkipForward                                                  |   0x08 |
+| * MediaStartOver                                                    |   0x03 |
+| * MediaStop                                                         |   0x02 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * PlaybackState                                                     | 0x0000 |
+| * StartTime                                                         | 0x0001 |
+| * Duration                                                          | 0x0002 |
+| * PositionUpdatedAt                                                 | 0x0003 |
+| * Position                                                          | 0x0004 |
+| * PlaybackSpeed                                                     | 0x0005 |
+| * SeekRangeEnd                                                      | 0x0006 |
+| * SeekRangeStart                                                    | 0x0007 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Command MediaFastForward
+ */
+class MediaPlaybackMediaFastForward : public ModelCommand
+{
+public:
+    MediaPlaybackMediaFastForward() : ModelCommand("media-fast-forward") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000007) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaFastForwardResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::MediaPlayback::Commands::MediaFastForward::Type mRequest;
+};
+
+/*
+ * Command MediaNext
+ */
+class MediaPlaybackMediaNext : public ModelCommand
+{
+public:
+    MediaPlaybackMediaNext() : ModelCommand("media-next") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000005) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaNextResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::MediaPlayback::Commands::MediaNext::Type mRequest;
+};
+
+/*
+ * Command MediaPause
+ */
+class MediaPlaybackMediaPause : public ModelCommand
+{
+public:
+    MediaPlaybackMediaPause() : ModelCommand("media-pause") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000001) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaPauseResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::MediaPlayback::Commands::MediaPause::Type mRequest;
+};
+
+/*
+ * Command MediaPlay
+ */
+class MediaPlaybackMediaPlay : public ModelCommand
+{
+public:
+    MediaPlaybackMediaPlay() : ModelCommand("media-play") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000000) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaPlayResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::MediaPlayback::Commands::MediaPlay::Type mRequest;
+};
+
+/*
+ * Command MediaPrevious
+ */
+class MediaPlaybackMediaPrevious : public ModelCommand
+{
+public:
+    MediaPlaybackMediaPrevious() : ModelCommand("media-previous") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000004) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaPreviousResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::MediaPlayback::Commands::MediaPrevious::Type mRequest;
+};
+
+/*
+ * Command MediaRewind
+ */
+class MediaPlaybackMediaRewind : public ModelCommand
+{
+public:
+    MediaPlaybackMediaRewind() : ModelCommand("media-rewind") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000006) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaRewindResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::MediaPlayback::Commands::MediaRewind::Type mRequest;
+};
+
+/*
+ * Command MediaSeek
+ */
+class MediaPlaybackMediaSeek : public ModelCommand
+{
+public:
+    MediaPlaybackMediaSeek() : ModelCommand("media-seek")
+    {
+        AddArgument("Position", 0, UINT64_MAX, &mRequest.position);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x0000000A) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaSeekResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::MediaPlayback::Commands::MediaSeek::Type mRequest;
+};
+
+/*
+ * Command MediaSkipBackward
+ */
+class MediaPlaybackMediaSkipBackward : public ModelCommand
+{
+public:
+    MediaPlaybackMediaSkipBackward() : ModelCommand("media-skip-backward")
+    {
+        AddArgument("DeltaPositionMilliseconds", 0, UINT64_MAX, &mRequest.deltaPositionMilliseconds);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000009) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaSkipBackwardResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::MediaPlayback::Commands::MediaSkipBackward::Type mRequest;
+};
+
+/*
+ * Command MediaSkipForward
+ */
+class MediaPlaybackMediaSkipForward : public ModelCommand
+{
+public:
+    MediaPlaybackMediaSkipForward() : ModelCommand("media-skip-forward")
+    {
+        AddArgument("DeltaPositionMilliseconds", 0, UINT64_MAX, &mRequest.deltaPositionMilliseconds);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000008) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaSkipForwardResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::MediaPlayback::Commands::MediaSkipForward::Type mRequest;
+};
+
+/*
+ * Command MediaStartOver
+ */
+class MediaPlaybackMediaStartOver : public ModelCommand
+{
+public:
+    MediaPlaybackMediaStartOver() : ModelCommand("media-start-over") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000003) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaStartOverResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::MediaPlayback::Commands::MediaStartOver::Type mRequest;
+};
+
+/*
+ * Command MediaStop
+ */
+class MediaPlaybackMediaStop : public ModelCommand
+{
+public:
+    MediaPlaybackMediaStop() : ModelCommand("media-stop") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000002) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaStopResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
+    }
+
+private:
+    chip::app::Clusters::MediaPlayback::Commands::MediaStop::Type mRequest;
+};
+
+/*
+ * Attribute PlaybackState
+ */
+class ReadMediaPlaybackPlaybackState : public ModelCommand
+{
+public:
+    ReadMediaPlaybackPlaybackState() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "playback-state");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadMediaPlaybackPlaybackState()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaPlaybackCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributePlaybackState(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportMediaPlaybackPlaybackState : public ModelCommand
+{
+public:
+    ReportMediaPlaybackPlaybackState() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "playback-state");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportMediaPlaybackPlaybackState()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaPlaybackCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributePlaybackState(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePlaybackState(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute StartTime
+ */
+class ReadMediaPlaybackStartTime : public ModelCommand
+{
+public:
+    ReadMediaPlaybackStartTime() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "start-time");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadMediaPlaybackStartTime()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaPlaybackCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeStartTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportMediaPlaybackStartTime : public ModelCommand
+{
+public:
+    ReportMediaPlaybackStartTime() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "start-time");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportMediaPlaybackStartTime()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaPlaybackCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeStartTime(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeStartTime(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute Duration
+ */
+class ReadMediaPlaybackDuration : public ModelCommand
+{
+public:
+    ReadMediaPlaybackDuration() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "duration");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadMediaPlaybackDuration()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaPlaybackCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeDuration(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportMediaPlaybackDuration : public ModelCommand
+{
+public:
+    ReportMediaPlaybackDuration() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "duration");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportMediaPlaybackDuration()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaPlaybackCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeDuration(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeDuration(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute PositionUpdatedAt
+ */
+class ReadMediaPlaybackPositionUpdatedAt : public ModelCommand
+{
+public:
+    ReadMediaPlaybackPositionUpdatedAt() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "position-updated-at");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadMediaPlaybackPositionUpdatedAt()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaPlaybackCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributePositionUpdatedAt(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportMediaPlaybackPositionUpdatedAt : public ModelCommand
+{
+public:
+    ReportMediaPlaybackPositionUpdatedAt() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "position-updated-at");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportMediaPlaybackPositionUpdatedAt()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaPlaybackCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributePositionUpdatedAt(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePositionUpdatedAt(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute Position
+ */
+class ReadMediaPlaybackPosition : public ModelCommand
+{
+public:
+    ReadMediaPlaybackPosition() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "position");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadMediaPlaybackPosition()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaPlaybackCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributePosition(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportMediaPlaybackPosition : public ModelCommand
+{
+public:
+    ReportMediaPlaybackPosition() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "position");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportMediaPlaybackPosition()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaPlaybackCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributePosition(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePosition(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute PlaybackSpeed
+ */
+class ReadMediaPlaybackPlaybackSpeed : public ModelCommand
+{
+public:
+    ReadMediaPlaybackPlaybackSpeed() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "playback-speed");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadMediaPlaybackPlaybackSpeed()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaPlaybackCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributePlaybackSpeed(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportMediaPlaybackPlaybackSpeed : public ModelCommand
+{
+public:
+    ReportMediaPlaybackPlaybackSpeed() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "playback-speed");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportMediaPlaybackPlaybackSpeed()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaPlaybackCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributePlaybackSpeed(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePlaybackSpeed(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute SeekRangeEnd
+ */
+class ReadMediaPlaybackSeekRangeEnd : public ModelCommand
+{
+public:
+    ReadMediaPlaybackSeekRangeEnd() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "seek-range-end");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadMediaPlaybackSeekRangeEnd()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaPlaybackCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeSeekRangeEnd(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportMediaPlaybackSeekRangeEnd : public ModelCommand
+{
+public:
+    ReportMediaPlaybackSeekRangeEnd() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "seek-range-end");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportMediaPlaybackSeekRangeEnd()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaPlaybackCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeSeekRangeEnd(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeSeekRangeEnd(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute SeekRangeStart
+ */
+class ReadMediaPlaybackSeekRangeStart : public ModelCommand
+{
+public:
+    ReadMediaPlaybackSeekRangeStart() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "seek-range-start");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadMediaPlaybackSeekRangeStart()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaPlaybackCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeSeekRangeStart(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportMediaPlaybackSeekRangeStart : public ModelCommand
+{
+public:
+    ReportMediaPlaybackSeekRangeStart() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "seek-range-start");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportMediaPlaybackSeekRangeStart()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaPlaybackCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeSeekRangeStart(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeSeekRangeStart(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadMediaPlaybackClusterRevision : public ModelCommand
+{
+public:
+    ReadMediaPlaybackClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadMediaPlaybackClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaPlaybackCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportMediaPlaybackClusterRevision : public ModelCommand
+{
+public:
+    ReportMediaPlaybackClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportMediaPlaybackClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::MediaPlaybackCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster ModeSelect                                                  | 0x0050 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * ChangeToMode                                                      |   0x00 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * CurrentMode                                                       | 0x0000 |
+| * SupportedModes                                                    | 0x0001 |
+| * OnMode                                                            | 0x0002 |
+| * StartUpMode                                                       | 0x0003 |
+| * Description                                                       | 0x0004 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Command ChangeToMode
+ */
+class ModeSelectChangeToMode : public ModelCommand
+{
+public:
+    ModeSelectChangeToMode() : ModelCommand("change-to-mode")
+    {
+        AddArgument("NewMode", 0, UINT8_MAX, &mRequest.newMode);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000050) command (0x00000000) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::ModeSelect::Commands::ChangeToMode::Type mRequest;
+};
+
+/*
+ * Attribute CurrentMode
+ */
+class ReadModeSelectCurrentMode : public ModelCommand
+{
+public:
+    ReadModeSelectCurrentMode() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "current-mode");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadModeSelectCurrentMode()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ModeSelectCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeCurrentMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportModeSelectCurrentMode : public ModelCommand
+{
+public:
+    ReportModeSelectCurrentMode() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "current-mode");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportModeSelectCurrentMode()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ModeSelectCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentMode(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentMode(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute SupportedModes
+ */
+class ReadModeSelectSupportedModes : public ModelCommand
+{
+public:
+    ReadModeSelectSupportedModes() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "supported-modes");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadModeSelectSupportedModes()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ModeSelectCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeSupportedModes(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<ModeSelectSupportedModesListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<ModeSelectSupportedModesListAttributeCallback>(OnModeSelectSupportedModesListAttributeResponse,
+                                                                                    this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+/*
+ * Attribute OnMode
+ */
+class ReadModeSelectOnMode : public ModelCommand
+{
+public:
+    ReadModeSelectOnMode() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "on-mode");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadModeSelectOnMode()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ModeSelectCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeOnMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteModeSelectOnMode : public ModelCommand
+{
+public:
+    WriteModeSelectOnMode() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "on-mode");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteModeSelectOnMode()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ModeSelectCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeOnMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
+};
+
+class ReportModeSelectOnMode : public ModelCommand
+{
+public:
+    ReportModeSelectOnMode() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "on-mode");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportModeSelectOnMode()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ModeSelectCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOnMode(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOnMode(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute StartUpMode
+ */
+class ReadModeSelectStartUpMode : public ModelCommand
+{
+public:
+    ReadModeSelectStartUpMode() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "start-up-mode");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadModeSelectStartUpMode()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ModeSelectCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeStartUpMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportModeSelectStartUpMode : public ModelCommand
+{
+public:
+    ReportModeSelectStartUpMode() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "start-up-mode");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportModeSelectStartUpMode()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ModeSelectCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeStartUpMode(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeStartUpMode(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute Description
+ */
+class ReadModeSelectDescription : public ModelCommand
+{
+public:
+    ReadModeSelectDescription() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "description");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadModeSelectDescription()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ModeSelectCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeDescription(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportModeSelectDescription : public ModelCommand
+{
+public:
+    ReportModeSelectDescription() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "description");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportModeSelectDescription()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ModeSelectCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeDescription(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeDescription(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadModeSelectClusterRevision : public ModelCommand
+{
+public:
+    ReadModeSelectClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadModeSelectClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ModeSelectCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportModeSelectClusterRevision : public ModelCommand
+{
+public:
+    ReportModeSelectClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportModeSelectClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::ModeSelectCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster NetworkCommissioning                                        | 0x0031 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * AddThreadNetwork                                                  |   0x06 |
+| * AddWiFiNetwork                                                    |   0x02 |
+| * DisableNetwork                                                    |   0x0E |
+| * EnableNetwork                                                     |   0x0C |
+| * RemoveNetwork                                                     |   0x0A |
+| * ScanNetworks                                                      |   0x00 |
+| * UpdateThreadNetwork                                               |   0x08 |
+| * UpdateWiFiNetwork                                                 |   0x04 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * FeatureMap                                                        | 0xFFFC |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Command AddThreadNetwork
+ */
+class NetworkCommissioningAddThreadNetwork : public ModelCommand
+{
+public:
+    NetworkCommissioningAddThreadNetwork() : ModelCommand("add-thread-network")
+    {
+        AddArgument("OperationalDataset", &mRequest.operationalDataset);
+        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
+        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000031) command (0x00000006) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnNetworkCommissioningAddThreadNetworkResponseSuccess,
+                                               OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::NetworkCommissioning::Commands::AddThreadNetwork::Type mRequest;
+};
+
+/*
+ * Command AddWiFiNetwork
+ */
+class NetworkCommissioningAddWiFiNetwork : public ModelCommand
+{
+public:
+    NetworkCommissioningAddWiFiNetwork() : ModelCommand("add-wi-fi-network")
+    {
+        AddArgument("Ssid", &mRequest.ssid);
+        AddArgument("Credentials", &mRequest.credentials);
+        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
+        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000031) command (0x00000002) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnNetworkCommissioningAddWiFiNetworkResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::NetworkCommissioning::Commands::AddWiFiNetwork::Type mRequest;
+};
+
+/*
+ * Command DisableNetwork
+ */
+class NetworkCommissioningDisableNetwork : public ModelCommand
+{
+public:
+    NetworkCommissioningDisableNetwork() : ModelCommand("disable-network")
+    {
+        AddArgument("NetworkID", &mRequest.networkID);
+        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
+        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000031) command (0x0000000E) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnNetworkCommissioningDisableNetworkResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::NetworkCommissioning::Commands::DisableNetwork::Type mRequest;
+};
+
+/*
+ * Command EnableNetwork
+ */
+class NetworkCommissioningEnableNetwork : public ModelCommand
+{
+public:
+    NetworkCommissioningEnableNetwork() : ModelCommand("enable-network")
+    {
+        AddArgument("NetworkID", &mRequest.networkID);
+        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
+        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000031) command (0x0000000C) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnNetworkCommissioningEnableNetworkResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::NetworkCommissioning::Commands::EnableNetwork::Type mRequest;
+};
+
+/*
+ * Command RemoveNetwork
+ */
+class NetworkCommissioningRemoveNetwork : public ModelCommand
+{
+public:
+    NetworkCommissioningRemoveNetwork() : ModelCommand("remove-network")
+    {
+        AddArgument("NetworkID", &mRequest.networkID);
+        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
+        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000031) command (0x0000000A) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnNetworkCommissioningRemoveNetworkResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::NetworkCommissioning::Commands::RemoveNetwork::Type mRequest;
+};
+
+/*
+ * Command ScanNetworks
+ */
+class NetworkCommissioningScanNetworks : public ModelCommand
+{
+public:
+    NetworkCommissioningScanNetworks() : ModelCommand("scan-networks")
+    {
+        AddArgument("Ssid", &mRequest.ssid);
+        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
+        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000031) command (0x00000000) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnNetworkCommissioningScanNetworksResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::NetworkCommissioning::Commands::ScanNetworks::Type mRequest;
+};
+
+/*
+ * Command UpdateThreadNetwork
+ */
+class NetworkCommissioningUpdateThreadNetwork : public ModelCommand
+{
+public:
+    NetworkCommissioningUpdateThreadNetwork() : ModelCommand("update-thread-network")
+    {
+        AddArgument("OperationalDataset", &mRequest.operationalDataset);
+        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
+        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000031) command (0x00000008) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnNetworkCommissioningUpdateThreadNetworkResponseSuccess,
+                                               OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::NetworkCommissioning::Commands::UpdateThreadNetwork::Type mRequest;
+};
+
+/*
+ * Command UpdateWiFiNetwork
+ */
+class NetworkCommissioningUpdateWiFiNetwork : public ModelCommand
+{
+public:
+    NetworkCommissioningUpdateWiFiNetwork() : ModelCommand("update-wi-fi-network")
+    {
+        AddArgument("Ssid", &mRequest.ssid);
+        AddArgument("Credentials", &mRequest.credentials);
+        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
+        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000031) command (0x00000004) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnNetworkCommissioningUpdateWiFiNetworkResponseSuccess,
+                                               OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::NetworkCommissioning::Commands::UpdateWiFiNetwork::Type mRequest;
+};
+
+/*
+ * Attribute FeatureMap
+ */
+class ReadNetworkCommissioningFeatureMap : public ModelCommand
+{
+public:
+    ReadNetworkCommissioningFeatureMap() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "feature-map");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadNetworkCommissioningFeatureMap()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0031) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::NetworkCommissioningCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeFeatureMap(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportNetworkCommissioningFeatureMap : public ModelCommand
+{
+public:
+    ReportNetworkCommissioningFeatureMap() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "feature-map");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportNetworkCommissioningFeatureMap()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0031) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::NetworkCommissioningCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeFeatureMap(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeFeatureMap(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadNetworkCommissioningClusterRevision : public ModelCommand
+{
+public:
+    ReadNetworkCommissioningClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadNetworkCommissioningClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0031) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::NetworkCommissioningCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportNetworkCommissioningClusterRevision : public ModelCommand
+{
+public:
+    ReportNetworkCommissioningClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportNetworkCommissioningClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0031) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::NetworkCommissioningCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster OtaSoftwareUpdateProvider                                   | 0x0029 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * ApplyUpdateRequest                                                |   0x01 |
+| * NotifyUpdateApplied                                               |   0x02 |
+| * QueryImage                                                        |   0x00 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Command ApplyUpdateRequest
+ */
+class OtaSoftwareUpdateProviderApplyUpdateRequest : public ModelCommand
+{
+public:
+    OtaSoftwareUpdateProviderApplyUpdateRequest() : ModelCommand("apply-update-request")
+    {
+        AddArgument("UpdateToken", &mRequest.updateToken);
+        AddArgument("NewVersion", 0, UINT32_MAX, &mRequest.newVersion);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000029) command (0x00000001) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnOtaSoftwareUpdateProviderApplyUpdateResponseSuccess,
+                                               OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::OtaSoftwareUpdateProvider::Commands::ApplyUpdateRequest::Type mRequest;
+};
+
+/*
+ * Command NotifyUpdateApplied
+ */
+class OtaSoftwareUpdateProviderNotifyUpdateApplied : public ModelCommand
+{
+public:
+    OtaSoftwareUpdateProviderNotifyUpdateApplied() : ModelCommand("notify-update-applied")
+    {
+        AddArgument("UpdateToken", &mRequest.updateToken);
+        AddArgument("SoftwareVersion", 0, UINT32_MAX, &mRequest.softwareVersion);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000029) command (0x00000002) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::OtaSoftwareUpdateProvider::Commands::NotifyUpdateApplied::Type mRequest;
+};
+
+/*
+ * Command QueryImage
+ */
+class OtaSoftwareUpdateProviderQueryImage : public ModelCommand
+{
+public:
+    OtaSoftwareUpdateProviderQueryImage() : ModelCommand("query-image")
+    {
+        AddArgument("VendorId", 0, UINT16_MAX, &mRequest.vendorId);
+        AddArgument("ProductId", 0, UINT16_MAX, &mRequest.productId);
+        AddArgument("SoftwareVersion", 0, UINT32_MAX, &mRequest.softwareVersion);
+        // protocolsSupported Array parsing is not supported yet
+        AddArgument("HardwareVersion", 0, UINT16_MAX, &mRequest.hardwareVersion);
+        AddArgument("Location", &mRequest.location);
+        AddArgument("RequestorCanConsent", 0, 1, &mRequest.requestorCanConsent);
+        AddArgument("MetadataForProvider", &mRequest.metadataForProvider);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000029) command (0x00000000) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnOtaSoftwareUpdateProviderQueryImageResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::OtaSoftwareUpdateProvider::Commands::QueryImage::Type mRequest;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadOtaSoftwareUpdateProviderClusterRevision : public ModelCommand
+{
+public:
+    ReadOtaSoftwareUpdateProviderClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOtaSoftwareUpdateProviderClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0029) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OtaSoftwareUpdateProviderCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportOtaSoftwareUpdateProviderClusterRevision : public ModelCommand
+{
+public:
+    ReportOtaSoftwareUpdateProviderClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOtaSoftwareUpdateProviderClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0029) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OtaSoftwareUpdateProviderCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster OtaSoftwareUpdateRequestor                                  | 0x002A |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * AnnounceOtaProvider                                               |   0x00 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * DefaultOtaProvider                                                | 0x0001 |
+| * UpdatePossible                                                    | 0x0002 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Command AnnounceOtaProvider
+ */
+class OtaSoftwareUpdateRequestorAnnounceOtaProvider : public ModelCommand
+{
+public:
+    OtaSoftwareUpdateRequestorAnnounceOtaProvider() : ModelCommand("announce-ota-provider")
+    {
+        AddArgument("ProviderLocation", 0, UINT64_MAX, &mRequest.providerLocation);
+        AddArgument("VendorId", 0, UINT16_MAX, &mRequest.vendorId);
+        AddArgument(
+            "AnnouncementReason", 0, UINT8_MAX,
+            reinterpret_cast<std::underlying_type_t<decltype(mRequest.announcementReason)> *>(&mRequest.announcementReason));
+        AddArgument("MetadataForNode", &mRequest.metadataForNode);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0000002A) command (0x00000000) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::OtaSoftwareUpdateRequestor::Commands::AnnounceOtaProvider::Type mRequest;
+};
+
+/*
+ * Attribute DefaultOtaProvider
+ */
+class ReadOtaSoftwareUpdateRequestorDefaultOtaProvider : public ModelCommand
+{
+public:
+    ReadOtaSoftwareUpdateRequestorDefaultOtaProvider() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "default-ota-provider");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOtaSoftwareUpdateRequestorDefaultOtaProvider()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002A) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OtaSoftwareUpdateRequestorCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeDefaultOtaProvider(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteOtaSoftwareUpdateRequestorDefaultOtaProvider : public ModelCommand
+{
+public:
+    WriteOtaSoftwareUpdateRequestorDefaultOtaProvider() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "default-ota-provider");
+        AddArgument("attr-value", &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteOtaSoftwareUpdateRequestorDefaultOtaProvider()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002A) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OtaSoftwareUpdateRequestorCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeDefaultOtaProvider(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::ByteSpan mValue;
+};
+
+class ReportOtaSoftwareUpdateRequestorDefaultOtaProvider : public ModelCommand
+{
+public:
+    ReportOtaSoftwareUpdateRequestorDefaultOtaProvider() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "default-ota-provider");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOtaSoftwareUpdateRequestorDefaultOtaProvider()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002A) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OtaSoftwareUpdateRequestorCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeDefaultOtaProvider(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeDefaultOtaProvider(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                            mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute UpdatePossible
+ */
+class ReadOtaSoftwareUpdateRequestorUpdatePossible : public ModelCommand
+{
+public:
+    ReadOtaSoftwareUpdateRequestorUpdatePossible() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "update-possible");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOtaSoftwareUpdateRequestorUpdatePossible()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002A) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OtaSoftwareUpdateRequestorCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeUpdatePossible(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportOtaSoftwareUpdateRequestorUpdatePossible : public ModelCommand
+{
+public:
+    ReportOtaSoftwareUpdateRequestorUpdatePossible() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "update-possible");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOtaSoftwareUpdateRequestorUpdatePossible()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002A) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OtaSoftwareUpdateRequestorCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeUpdatePossible(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeUpdatePossible(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadOtaSoftwareUpdateRequestorClusterRevision : public ModelCommand
+{
+public:
+    ReadOtaSoftwareUpdateRequestorClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOtaSoftwareUpdateRequestorClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002A) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OtaSoftwareUpdateRequestorCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportOtaSoftwareUpdateRequestorClusterRevision : public ModelCommand
+{
+public:
+    ReportOtaSoftwareUpdateRequestorClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOtaSoftwareUpdateRequestorClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002A) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OtaSoftwareUpdateRequestorCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster OccupancySensing                                            | 0x0406 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * Occupancy                                                         | 0x0000 |
+| * OccupancySensorType                                               | 0x0001 |
+| * OccupancySensorTypeBitmap                                         | 0x0002 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Attribute Occupancy
+ */
+class ReadOccupancySensingOccupancy : public ModelCommand
+{
+public:
+    ReadOccupancySensingOccupancy() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "occupancy");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOccupancySensingOccupancy()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0406) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OccupancySensingCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeOccupancy(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportOccupancySensingOccupancy : public ModelCommand
+{
+public:
+    ReportOccupancySensingOccupancy() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "occupancy");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOccupancySensingOccupancy()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0406) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OccupancySensingCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOccupancy(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOccupancy(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute OccupancySensorType
+ */
+class ReadOccupancySensingOccupancySensorType : public ModelCommand
+{
+public:
+    ReadOccupancySensingOccupancySensorType() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "occupancy-sensor-type");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOccupancySensingOccupancySensorType()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0406) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OccupancySensingCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeOccupancySensorType(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportOccupancySensingOccupancySensorType : public ModelCommand
+{
+public:
+    ReportOccupancySensingOccupancySensorType() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "occupancy-sensor-type");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOccupancySensingOccupancySensorType()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0406) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OccupancySensingCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOccupancySensorType(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOccupancySensorType(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                             mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute OccupancySensorTypeBitmap
+ */
+class ReadOccupancySensingOccupancySensorTypeBitmap : public ModelCommand
+{
+public:
+    ReadOccupancySensingOccupancySensorTypeBitmap() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "occupancy-sensor-type-bitmap");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOccupancySensingOccupancySensorTypeBitmap()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0406) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OccupancySensingCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeOccupancySensorTypeBitmap(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportOccupancySensingOccupancySensorTypeBitmap : public ModelCommand
+{
+public:
+    ReportOccupancySensingOccupancySensorTypeBitmap() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "occupancy-sensor-type-bitmap");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOccupancySensingOccupancySensorTypeBitmap()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0406) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OccupancySensingCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOccupancySensorTypeBitmap(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOccupancySensorTypeBitmap(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                   mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadOccupancySensingClusterRevision : public ModelCommand
+{
+public:
+    ReadOccupancySensingClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOccupancySensingClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0406) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OccupancySensingCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportOccupancySensingClusterRevision : public ModelCommand
+{
+public:
+    ReportOccupancySensingClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOccupancySensingClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0406) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OccupancySensingCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster OnOff                                                       | 0x0006 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * Off                                                               |   0x00 |
+| * OffWithEffect                                                     |   0x40 |
+| * On                                                                |   0x01 |
+| * OnWithRecallGlobalScene                                           |   0x41 |
+| * OnWithTimedOff                                                    |   0x42 |
+| * Toggle                                                            |   0x02 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * OnOff                                                             | 0x0000 |
+| * GlobalSceneControl                                                | 0x4000 |
+| * OnTime                                                            | 0x4001 |
+| * OffWaitTime                                                       | 0x4002 |
+| * StartUpOnOff                                                      | 0x4003 |
+| * FeatureMap                                                        | 0xFFFC |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Command Off
+ */
+class OnOffOff : public ModelCommand
+{
+public:
+    OnOffOff() : ModelCommand("off") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000006) command (0x00000000) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::OnOff::Commands::Off::Type mRequest;
+};
+
+/*
+ * Command OffWithEffect
+ */
+class OnOffOffWithEffect : public ModelCommand
+{
+public:
+    OnOffOffWithEffect() : ModelCommand("off-with-effect")
+    {
+        AddArgument("EffectId", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.effectId)> *>(&mRequest.effectId));
+        AddArgument("EffectVariant", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.effectVariant)> *>(&mRequest.effectVariant));
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000006) command (0x00000040) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::OnOff::Commands::OffWithEffect::Type mRequest;
+};
+
+/*
+ * Command On
+ */
+class OnOffOn : public ModelCommand
+{
+public:
+    OnOffOn() : ModelCommand("on") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000006) command (0x00000001) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::OnOff::Commands::On::Type mRequest;
+};
+
+/*
+ * Command OnWithRecallGlobalScene
+ */
+class OnOffOnWithRecallGlobalScene : public ModelCommand
+{
+public:
+    OnOffOnWithRecallGlobalScene() : ModelCommand("on-with-recall-global-scene") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000006) command (0x00000041) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::OnOff::Commands::OnWithRecallGlobalScene::Type mRequest;
+};
+
+/*
+ * Command OnWithTimedOff
+ */
+class OnOffOnWithTimedOff : public ModelCommand
+{
+public:
+    OnOffOnWithTimedOff() : ModelCommand("on-with-timed-off")
+    {
+        AddArgument("OnOffControl", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<chip::app::Clusters::OnOff::OnOffControl> *>(&mRequest.onOffControl));
+        AddArgument("OnTime", 0, UINT16_MAX, &mRequest.onTime);
+        AddArgument("OffWaitTime", 0, UINT16_MAX, &mRequest.offWaitTime);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000006) command (0x00000042) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::OnOff::Commands::OnWithTimedOff::Type mRequest;
+};
+
+/*
+ * Command Toggle
+ */
+class OnOffToggle : public ModelCommand
+{
+public:
+    OnOffToggle() : ModelCommand("toggle") { ModelCommand::AddArguments(); }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x00000006) command (0x00000002) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::OnOff::Commands::Toggle::Type mRequest;
+};
+
+/*
+ * Attribute OnOff
+ */
+class ReadOnOffOnOff : public ModelCommand
+{
+public:
+    ReadOnOffOnOff() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "on-off");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOnOffOnOff()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeOnOff(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportOnOffOnOff : public ModelCommand
+{
+public:
+    ReportOnOffOnOff() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "on-off");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOnOffOnOff()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOnOff(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOnOff(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute GlobalSceneControl
+ */
+class ReadOnOffGlobalSceneControl : public ModelCommand
+{
+public:
+    ReadOnOffGlobalSceneControl() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "global-scene-control");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOnOffGlobalSceneControl()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeGlobalSceneControl(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportOnOffGlobalSceneControl : public ModelCommand
+{
+public:
+    ReportOnOffGlobalSceneControl() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "global-scene-control");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOnOffGlobalSceneControl()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeGlobalSceneControl(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeGlobalSceneControl(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                            mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute OnTime
+ */
+class ReadOnOffOnTime : public ModelCommand
+{
+public:
+    ReadOnOffOnTime() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "on-time");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOnOffOnTime()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeOnTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteOnOffOnTime : public ModelCommand
+{
+public:
+    WriteOnOffOnTime() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "on-time");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteOnOffOnTime()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeOnTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
+};
+
+class ReportOnOffOnTime : public ModelCommand
+{
+public:
+    ReportOnOffOnTime() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "on-time");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOnOffOnTime()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOnTime(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOnTime(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute OffWaitTime
+ */
+class ReadOnOffOffWaitTime : public ModelCommand
+{
+public:
+    ReadOnOffOffWaitTime() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "off-wait-time");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOnOffOffWaitTime()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeOffWaitTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteOnOffOffWaitTime : public ModelCommand
+{
+public:
+    WriteOnOffOffWaitTime() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "off-wait-time");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteOnOffOffWaitTime()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeOffWaitTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
+};
+
+class ReportOnOffOffWaitTime : public ModelCommand
+{
+public:
+    ReportOnOffOffWaitTime() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "off-wait-time");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOnOffOffWaitTime()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOffWaitTime(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOffWaitTime(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute StartUpOnOff
+ */
+class ReadOnOffStartUpOnOff : public ModelCommand
+{
+public:
+    ReadOnOffStartUpOnOff() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "start-up-on-off");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOnOffStartUpOnOff()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeStartUpOnOff(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteOnOffStartUpOnOff : public ModelCommand
+{
+public:
+    WriteOnOffStartUpOnOff() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "start-up-on-off");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteOnOffStartUpOnOff()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeStartUpOnOff(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
+};
+
+class ReportOnOffStartUpOnOff : public ModelCommand
+{
+public:
+    ReportOnOffStartUpOnOff() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "start-up-on-off");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOnOffStartUpOnOff()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeStartUpOnOff(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeStartUpOnOff(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute FeatureMap
+ */
+class ReadOnOffFeatureMap : public ModelCommand
+{
+public:
+    ReadOnOffFeatureMap() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "feature-map");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOnOffFeatureMap()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeFeatureMap(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportOnOffFeatureMap : public ModelCommand
+{
+public:
+    ReportOnOffFeatureMap() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "feature-map");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOnOffFeatureMap()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeFeatureMap(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeFeatureMap(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadOnOffClusterRevision : public ModelCommand
+{
+public:
+    ReadOnOffClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOnOffClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportOnOffClusterRevision : public ModelCommand
+{
+public:
+    ReportOnOffClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOnOffClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster OnOffSwitchConfiguration                                    | 0x0007 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * SwitchType                                                        | 0x0000 |
+| * SwitchActions                                                     | 0x0010 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Attribute SwitchType
+ */
+class ReadOnOffSwitchConfigurationSwitchType : public ModelCommand
+{
+public:
+    ReadOnOffSwitchConfigurationSwitchType() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "switch-type");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOnOffSwitchConfigurationSwitchType()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0007) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffSwitchConfigurationCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeSwitchType(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportOnOffSwitchConfigurationSwitchType : public ModelCommand
+{
+public:
+    ReportOnOffSwitchConfigurationSwitchType() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "switch-type");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOnOffSwitchConfigurationSwitchType()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0007) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffSwitchConfigurationCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeSwitchType(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeSwitchType(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute SwitchActions
+ */
+class ReadOnOffSwitchConfigurationSwitchActions : public ModelCommand
+{
+public:
+    ReadOnOffSwitchConfigurationSwitchActions() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "switch-actions");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOnOffSwitchConfigurationSwitchActions()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0007) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffSwitchConfigurationCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeSwitchActions(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class WriteOnOffSwitchConfigurationSwitchActions : public ModelCommand
+{
+public:
+    WriteOnOffSwitchConfigurationSwitchActions() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "switch-actions");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteOnOffSwitchConfigurationSwitchActions()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0007) command (0x01) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffSwitchConfigurationCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeSwitchActions(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
+};
+
+class ReportOnOffSwitchConfigurationSwitchActions : public ModelCommand
+{
+public:
+    ReportOnOffSwitchConfigurationSwitchActions() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "switch-actions");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOnOffSwitchConfigurationSwitchActions()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0007) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffSwitchConfigurationCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeSwitchActions(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeSwitchActions(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadOnOffSwitchConfigurationClusterRevision : public ModelCommand
+{
+public:
+    ReadOnOffSwitchConfigurationClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOnOffSwitchConfigurationClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0007) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffSwitchConfigurationCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportOnOffSwitchConfigurationClusterRevision : public ModelCommand
+{
+public:
+    ReportOnOffSwitchConfigurationClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOnOffSwitchConfigurationClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0007) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OnOffSwitchConfigurationCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster OperationalCredentials                                      | 0x003E |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * AddNOC                                                            |   0x06 |
+| * AddTrustedRootCertificate                                         |   0x0B |
+| * AttestationRequest                                                |   0x00 |
+| * CertificateChainRequest                                           |   0x02 |
+| * OpCSRRequest                                                      |   0x04 |
+| * RemoveFabric                                                      |   0x0A |
+| * RemoveTrustedRootCertificate                                      |   0x0C |
+| * UpdateFabricLabel                                                 |   0x09 |
+| * UpdateNOC                                                         |   0x07 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * FabricsList                                                       | 0x0001 |
+| * SupportedFabrics                                                  | 0x0002 |
+| * CommissionedFabrics                                               | 0x0003 |
+| * TrustedRootCertificates                                           | 0x0004 |
+| * CurrentFabricIndex                                                | 0x0005 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Command AddNOC
+ */
+class OperationalCredentialsAddNOC : public ModelCommand
+{
+public:
+    OperationalCredentialsAddNOC() : ModelCommand("add-noc")
+    {
+        AddArgument("NOCValue", &mRequest.NOCValue);
+        AddArgument("ICACValue", &mRequest.ICACValue);
+        AddArgument("IPKValue", &mRequest.IPKValue);
+        AddArgument("CaseAdminNode", 0, UINT64_MAX, &mRequest.caseAdminNode);
+        AddArgument("AdminVendorId", 0, UINT16_MAX, &mRequest.adminVendorId);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0000003E) command (0x00000006) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnOperationalCredentialsNOCResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::OperationalCredentials::Commands::AddNOC::Type mRequest;
+};
+
+/*
+ * Command AddTrustedRootCertificate
+ */
+class OperationalCredentialsAddTrustedRootCertificate : public ModelCommand
+{
+public:
+    OperationalCredentialsAddTrustedRootCertificate() : ModelCommand("add-trusted-root-certificate")
+    {
+        AddArgument("RootCertificate", &mRequest.rootCertificate);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0000003E) command (0x0000000B) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::OperationalCredentials::Commands::AddTrustedRootCertificate::Type mRequest;
+};
+
+/*
+ * Command AttestationRequest
+ */
+class OperationalCredentialsAttestationRequest : public ModelCommand
+{
+public:
+    OperationalCredentialsAttestationRequest() : ModelCommand("attestation-request")
+    {
+        AddArgument("AttestationNonce", &mRequest.attestationNonce);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0000003E) command (0x00000000) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnOperationalCredentialsAttestationResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::OperationalCredentials::Commands::AttestationRequest::Type mRequest;
+};
+
+/*
+ * Command CertificateChainRequest
+ */
+class OperationalCredentialsCertificateChainRequest : public ModelCommand
+{
+public:
+    OperationalCredentialsCertificateChainRequest() : ModelCommand("certificate-chain-request")
+    {
+        AddArgument("CertificateType", 0, UINT8_MAX, &mRequest.certificateType);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0000003E) command (0x00000002) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnOperationalCredentialsCertificateChainResponseSuccess,
+                                               OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::OperationalCredentials::Commands::CertificateChainRequest::Type mRequest;
+};
+
+/*
+ * Command OpCSRRequest
+ */
+class OperationalCredentialsOpCSRRequest : public ModelCommand
+{
+public:
+    OperationalCredentialsOpCSRRequest() : ModelCommand("op-csrrequest")
+    {
+        AddArgument("CSRNonce", &mRequest.CSRNonce);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0000003E) command (0x00000004) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnOperationalCredentialsOpCSRResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::OperationalCredentials::Commands::OpCSRRequest::Type mRequest;
+};
+
+/*
+ * Command RemoveFabric
+ */
+class OperationalCredentialsRemoveFabric : public ModelCommand
+{
+public:
+    OperationalCredentialsRemoveFabric() : ModelCommand("remove-fabric")
+    {
+        AddArgument("FabricIndex", 0, UINT8_MAX, &mRequest.fabricIndex);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0000003E) command (0x0000000A) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnOperationalCredentialsNOCResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::OperationalCredentials::Commands::RemoveFabric::Type mRequest;
+};
+
+/*
+ * Command RemoveTrustedRootCertificate
+ */
+class OperationalCredentialsRemoveTrustedRootCertificate : public ModelCommand
+{
+public:
+    OperationalCredentialsRemoveTrustedRootCertificate() : ModelCommand("remove-trusted-root-certificate")
+    {
+        AddArgument("TrustedRootIdentifier", &mRequest.trustedRootIdentifier);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0000003E) command (0x0000000C) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::OperationalCredentials::Commands::RemoveTrustedRootCertificate::Type mRequest;
+};
+
+/*
+ * Command UpdateFabricLabel
+ */
+class OperationalCredentialsUpdateFabricLabel : public ModelCommand
+{
+public:
+    OperationalCredentialsUpdateFabricLabel() : ModelCommand("update-fabric-label")
+    {
+        AddArgument("Label", &mRequest.label);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0000003E) command (0x00000009) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnOperationalCredentialsNOCResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::OperationalCredentials::Commands::UpdateFabricLabel::Type mRequest;
+};
+
+/*
+ * Command UpdateNOC
+ */
+class OperationalCredentialsUpdateNOC : public ModelCommand
+{
+public:
+    OperationalCredentialsUpdateNOC() : ModelCommand("update-noc")
+    {
+        AddArgument("NOCValue", &mRequest.NOCValue);
+        AddArgument("ICACValue", &mRequest.ICACValue);
+        ModelCommand::AddArguments();
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0000003E) command (0x00000007) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnOperationalCredentialsNOCResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
+    }
+
+private:
+    chip::app::Clusters::OperationalCredentials::Commands::UpdateNOC::Type mRequest;
+};
+
+/*
+ * Attribute FabricsList
+ */
+class ReadOperationalCredentialsFabricsList : public ModelCommand
+{
+public:
+    ReadOperationalCredentialsFabricsList() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "fabrics-list");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOperationalCredentialsFabricsList()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x003E) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OperationalCredentialsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeFabricsList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<OperationalCredentialsFabricsListListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<OperationalCredentialsFabricsListListAttributeCallback>(
+            OnOperationalCredentialsFabricsListListAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+/*
+ * Attribute SupportedFabrics
+ */
+class ReadOperationalCredentialsSupportedFabrics : public ModelCommand
+{
+public:
+    ReadOperationalCredentialsSupportedFabrics() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "supported-fabrics");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOperationalCredentialsSupportedFabrics()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x003E) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OperationalCredentialsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeSupportedFabrics(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportOperationalCredentialsSupportedFabrics : public ModelCommand
+{
+public:
+    ReportOperationalCredentialsSupportedFabrics() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "supported-fabrics");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOperationalCredentialsSupportedFabrics()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x003E) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OperationalCredentialsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeSupportedFabrics(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeSupportedFabrics(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute CommissionedFabrics
+ */
+class ReadOperationalCredentialsCommissionedFabrics : public ModelCommand
+{
+public:
+    ReadOperationalCredentialsCommissionedFabrics() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "commissioned-fabrics");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOperationalCredentialsCommissionedFabrics()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x003E) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OperationalCredentialsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeCommissionedFabrics(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportOperationalCredentialsCommissionedFabrics : public ModelCommand
+{
+public:
+    ReportOperationalCredentialsCommissionedFabrics() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "commissioned-fabrics");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOperationalCredentialsCommissionedFabrics()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x003E) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OperationalCredentialsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCommissionedFabrics(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCommissionedFabrics(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                             mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute TrustedRootCertificates
+ */
+class ReadOperationalCredentialsTrustedRootCertificates : public ModelCommand
+{
+public:
+    ReadOperationalCredentialsTrustedRootCertificates() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "trusted-root-certificates");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOperationalCredentialsTrustedRootCertificates()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x003E) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OperationalCredentialsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeTrustedRootCertificates(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<OperationalCredentialsTrustedRootCertificatesListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<OperationalCredentialsTrustedRootCertificatesListAttributeCallback>(
+            OnOperationalCredentialsTrustedRootCertificatesListAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+/*
+ * Attribute CurrentFabricIndex
+ */
+class ReadOperationalCredentialsCurrentFabricIndex : public ModelCommand
+{
+public:
+    ReadOperationalCredentialsCurrentFabricIndex() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "current-fabric-index");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOperationalCredentialsCurrentFabricIndex()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x003E) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OperationalCredentialsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeCurrentFabricIndex(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportOperationalCredentialsCurrentFabricIndex : public ModelCommand
+{
+public:
+    ReportOperationalCredentialsCurrentFabricIndex() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "current-fabric-index");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOperationalCredentialsCurrentFabricIndex()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x003E) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OperationalCredentialsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentFabricIndex(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentFabricIndex(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                            mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadOperationalCredentialsClusterRevision : public ModelCommand
+{
+public:
+    ReadOperationalCredentialsClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadOperationalCredentialsClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x003E) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OperationalCredentialsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportOperationalCredentialsClusterRevision : public ModelCommand
+{
+public:
+    ReportOperationalCredentialsClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportOperationalCredentialsClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x003E) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::OperationalCredentialsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster PowerSource                                                 | 0x002F |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * Status                                                            | 0x0000 |
+| * Order                                                             | 0x0001 |
+| * Description                                                       | 0x0002 |
+| * BatteryVoltage                                                    | 0x000B |
+| * BatteryPercentRemaining                                           | 0x000C |
+| * BatteryTimeRemaining                                              | 0x000D |
+| * BatteryChargeLevel                                                | 0x000E |
+| * ActiveBatteryFaults                                               | 0x0012 |
+| * BatteryChargeState                                                | 0x001A |
+| * FeatureMap                                                        | 0xFFFC |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Attribute Status
+ */
+class ReadPowerSourceStatus : public ModelCommand
+{
+public:
+    ReadPowerSourceStatus() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "status");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadPowerSourceStatus()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeStatus(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportPowerSourceStatus : public ModelCommand
+{
+public:
+    ReportPowerSourceStatus() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "status");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportPowerSourceStatus()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeStatus(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeStatus(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute Order
+ */
+class ReadPowerSourceOrder : public ModelCommand
+{
+public:
+    ReadPowerSourceOrder() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "order");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadPowerSourceOrder()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeOrder(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportPowerSourceOrder : public ModelCommand
+{
+public:
+    ReportPowerSourceOrder() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "order");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportPowerSourceOrder()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOrder(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOrder(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute Description
+ */
+class ReadPowerSourceDescription : public ModelCommand
+{
+public:
+    ReadPowerSourceDescription() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "description");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadPowerSourceDescription()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeDescription(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportPowerSourceDescription : public ModelCommand
+{
+public:
+    ReportPowerSourceDescription() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "description");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportPowerSourceDescription()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeDescription(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeDescription(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute BatteryVoltage
+ */
+class ReadPowerSourceBatteryVoltage : public ModelCommand
+{
+public:
+    ReadPowerSourceBatteryVoltage() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "battery-voltage");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadPowerSourceBatteryVoltage()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeBatteryVoltage(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportPowerSourceBatteryVoltage : public ModelCommand
+{
+public:
+    ReportPowerSourceBatteryVoltage() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "battery-voltage");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportPowerSourceBatteryVoltage()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeBatteryVoltage(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeBatteryVoltage(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute BatteryPercentRemaining
+ */
+class ReadPowerSourceBatteryPercentRemaining : public ModelCommand
+{
+public:
+    ReadPowerSourceBatteryPercentRemaining() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "battery-percent-remaining");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadPowerSourceBatteryPercentRemaining()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeBatteryPercentRemaining(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportPowerSourceBatteryPercentRemaining : public ModelCommand
+{
+public:
+    ReportPowerSourceBatteryPercentRemaining() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "battery-percent-remaining");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportPowerSourceBatteryPercentRemaining()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeBatteryPercentRemaining(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeBatteryPercentRemaining(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                 mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute BatteryTimeRemaining
+ */
+class ReadPowerSourceBatteryTimeRemaining : public ModelCommand
+{
+public:
+    ReadPowerSourceBatteryTimeRemaining() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "battery-time-remaining");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadPowerSourceBatteryTimeRemaining()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeBatteryTimeRemaining(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportPowerSourceBatteryTimeRemaining : public ModelCommand
+{
+public:
+    ReportPowerSourceBatteryTimeRemaining() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "battery-time-remaining");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportPowerSourceBatteryTimeRemaining()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeBatteryTimeRemaining(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeBatteryTimeRemaining(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                              mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute BatteryChargeLevel
+ */
+class ReadPowerSourceBatteryChargeLevel : public ModelCommand
+{
+public:
+    ReadPowerSourceBatteryChargeLevel() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "battery-charge-level");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadPowerSourceBatteryChargeLevel()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeBatteryChargeLevel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportPowerSourceBatteryChargeLevel : public ModelCommand
+{
+public:
+    ReportPowerSourceBatteryChargeLevel() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "battery-charge-level");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportPowerSourceBatteryChargeLevel()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeBatteryChargeLevel(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeBatteryChargeLevel(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                            mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ActiveBatteryFaults
+ */
+class ReadPowerSourceActiveBatteryFaults : public ModelCommand
+{
+public:
+    ReadPowerSourceActiveBatteryFaults() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "active-battery-faults");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadPowerSourceActiveBatteryFaults()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeActiveBatteryFaults(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<PowerSourceActiveBatteryFaultsListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<PowerSourceActiveBatteryFaultsListAttributeCallback>(
+            OnPowerSourceActiveBatteryFaultsListAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+/*
+ * Attribute BatteryChargeState
+ */
+class ReadPowerSourceBatteryChargeState : public ModelCommand
+{
+public:
+    ReadPowerSourceBatteryChargeState() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "battery-charge-state");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadPowerSourceBatteryChargeState()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeBatteryChargeState(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportPowerSourceBatteryChargeState : public ModelCommand
+{
+public:
+    ReportPowerSourceBatteryChargeState() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "battery-charge-state");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportPowerSourceBatteryChargeState()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeBatteryChargeState(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeBatteryChargeState(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                            mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute FeatureMap
+ */
+class ReadPowerSourceFeatureMap : public ModelCommand
+{
+public:
+    ReadPowerSourceFeatureMap() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "feature-map");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadPowerSourceFeatureMap()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeFeatureMap(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportPowerSourceFeatureMap : public ModelCommand
+{
+public:
+    ReportPowerSourceFeatureMap() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "feature-map");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportPowerSourceFeatureMap()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeFeatureMap(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeFeatureMap(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute ClusterRevision
+ */
+class ReadPowerSourceClusterRevision : public ModelCommand
+{
+public:
+    ReadPowerSourceClusterRevision() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadPowerSourceClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportPowerSourceClusterRevision : public ModelCommand
+{
+public:
+    ReportPowerSourceClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportPowerSourceClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PowerSourceCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*----------------------------------------------------------------------------*\
+| Cluster PressureMeasurement                                         | 0x0403 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * MeasuredValue                                                     | 0x0000 |
+| * MinMeasuredValue                                                  | 0x0001 |
+| * MaxMeasuredValue                                                  | 0x0002 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Attribute MeasuredValue
+ */
+class ReadPressureMeasurementMeasuredValue : public ModelCommand
+{
+public:
+    ReadPressureMeasurementMeasuredValue() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "measured-value");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadPressureMeasurementMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0403) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PressureMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportPressureMeasurementMeasuredValue : public ModelCommand
+{
+public:
+    ReportPressureMeasurementMeasuredValue() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "measured-value");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportPressureMeasurementMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0403) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PressureMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMeasuredValue(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMeasuredValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
+/*
+ * Attribute MinMeasuredValue
+ */
+class ReadPressureMeasurementMinMeasuredValue : public ModelCommand
+{
+public:
+    ReadPressureMeasurementMinMeasuredValue() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "min-measured-value");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadPressureMeasurementMinMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0403) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PressureMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMinMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command GetUserType
- */
-class DoorLockGetUserType : public ModelCommand
+class ReportPressureMeasurementMinMeasuredValue : public ModelCommand
 {
 public:
-    DoorLockGetUserType() : ModelCommand("get-user-type")
+    ReportPressureMeasurementMinMeasuredValue() : ModelCommand("report")
     {
-        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        AddArgument("attr-name", "min-measured-value");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportPressureMeasurementMinMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000015) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0403) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockGetUserTypeResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        chip::Controller::PressureMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMinMeasuredValue(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMinMeasuredValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::DoorLock::Commands::GetUserType::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command GetWeekdaySchedule
+ * Attribute MaxMeasuredValue
  */
-class DoorLockGetWeekdaySchedule : public ModelCommand
+class ReadPressureMeasurementMaxMeasuredValue : public ModelCommand
 {
 public:
-    DoorLockGetWeekdaySchedule() : ModelCommand("get-weekday-schedule")
+    ReadPressureMeasurementMaxMeasuredValue() : ModelCommand("read")
     {
-        AddArgument("ScheduleId", 0, UINT8_MAX, &mRequest.scheduleId);
-        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        AddArgument("attr-name", "max-measured-value");
         ModelCommand::AddArguments();
     }
 
+    ~ReadPressureMeasurementMaxMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x0000000C) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0403) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockGetWeekdayScheduleResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::PressureMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMaxMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::DoorLock::Commands::GetWeekdaySchedule::Type mRequest;
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command GetYeardaySchedule
- */
-class DoorLockGetYeardaySchedule : public ModelCommand
+class ReportPressureMeasurementMaxMeasuredValue : public ModelCommand
 {
 public:
-    DoorLockGetYeardaySchedule() : ModelCommand("get-yearday-schedule")
+    ReportPressureMeasurementMaxMeasuredValue() : ModelCommand("report")
     {
-        AddArgument("ScheduleId", 0, UINT8_MAX, &mRequest.scheduleId);
-        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
+        AddArgument("attr-name", "max-measured-value");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportPressureMeasurementMaxMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x0000000F) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0403) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockGetYeardayScheduleResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::PressureMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMaxMeasuredValue(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMaxMeasuredValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::DoorLock::Commands::GetYeardaySchedule::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command LockDoor
+ * Attribute ClusterRevision
  */
-class DoorLockLockDoor : public ModelCommand
+class ReadPressureMeasurementClusterRevision : public ModelCommand
 {
 public:
-    DoorLockLockDoor() : ModelCommand("lock-door")
+    ReadPressureMeasurementClusterRevision() : ModelCommand("read")
     {
-        AddArgument("Pin", &mRequest.pin);
+        AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
+    ~ReadPressureMeasurementClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0403) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockLockDoorResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        chip::Controller::PressureMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::DoorLock::Commands::LockDoor::Type mRequest;
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command SetHolidaySchedule
- */
-class DoorLockSetHolidaySchedule : public ModelCommand
+class ReportPressureMeasurementClusterRevision : public ModelCommand
 {
 public:
-    DoorLockSetHolidaySchedule() : ModelCommand("set-holiday-schedule")
+    ReportPressureMeasurementClusterRevision() : ModelCommand("report")
     {
-        AddArgument("ScheduleId", 0, UINT8_MAX, &mRequest.scheduleId);
-        AddArgument("LocalStartTime", 0, UINT32_MAX, &mRequest.localStartTime);
-        AddArgument("LocalEndTime", 0, UINT32_MAX, &mRequest.localEndTime);
-        AddArgument("OperatingModeDuringHoliday", 0, UINT8_MAX, &mRequest.operatingModeDuringHoliday);
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportPressureMeasurementClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000011) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0403) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockSetHolidayScheduleResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::PressureMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::DoorLock::Commands::SetHolidaySchedule::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
+/*----------------------------------------------------------------------------*\
+| Cluster PumpConfigurationAndControl                                 | 0x0200 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * MaxPressure                                                       | 0x0000 |
+| * MaxSpeed                                                          | 0x0001 |
+| * MaxFlow                                                           | 0x0002 |
+| * MinConstPressure                                                  | 0x0003 |
+| * MaxConstPressure                                                  | 0x0004 |
+| * MinCompPressure                                                   | 0x0005 |
+| * MaxCompPressure                                                   | 0x0006 |
+| * MinConstSpeed                                                     | 0x0007 |
+| * MaxConstSpeed                                                     | 0x0008 |
+| * MinConstFlow                                                      | 0x0009 |
+| * MaxConstFlow                                                      | 0x000A |
+| * MinConstTemp                                                      | 0x000B |
+| * MaxConstTemp                                                      | 0x000C |
+| * PumpStatus                                                        | 0x0010 |
+| * EffectiveOperationMode                                            | 0x0011 |
+| * EffectiveControlMode                                              | 0x0012 |
+| * Capacity                                                          | 0x0013 |
+| * Speed                                                             | 0x0014 |
+| * LifetimeEnergyConsumed                                            | 0x0017 |
+| * OperationMode                                                     | 0x0020 |
+| * ControlMode                                                       | 0x0021 |
+| * AlarmMask                                                         | 0x0022 |
+| * FeatureMap                                                        | 0xFFFC |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
 /*
- * Command SetPin
+ * Attribute MaxPressure
  */
-class DoorLockSetPin : public ModelCommand
+class ReadPumpConfigurationAndControlMaxPressure : public ModelCommand
 {
 public:
-    DoorLockSetPin() : ModelCommand("set-pin")
+    ReadPumpConfigurationAndControlMaxPressure() : ModelCommand("read")
     {
-        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
-        AddArgument("UserStatus", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.userStatus)> *>(&mRequest.userStatus));
-        AddArgument("UserType", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.userType)> *>(&mRequest.userType));
-        AddArgument("Pin", &mRequest.pin);
+        AddArgument("attr-name", "max-pressure");
         ModelCommand::AddArguments();
     }
 
+    ~ReadPumpConfigurationAndControlMaxPressure()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000005) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockSetPinResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMaxPressure(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::DoorLock::Commands::SetPin::Type mRequest;
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportPumpConfigurationAndControlMaxPressure : public ModelCommand
+{
+public:
+    ReportPumpConfigurationAndControlMaxPressure() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "max-pressure");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportPumpConfigurationAndControlMaxPressure()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMaxPressure(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMaxPressure(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command SetRfid
+ * Attribute MaxSpeed
  */
-class DoorLockSetRfid : public ModelCommand
+class ReadPumpConfigurationAndControlMaxSpeed : public ModelCommand
 {
 public:
-    DoorLockSetRfid() : ModelCommand("set-rfid")
+    ReadPumpConfigurationAndControlMaxSpeed() : ModelCommand("read")
     {
-        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
-        AddArgument("UserStatus", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.userStatus)> *>(&mRequest.userStatus));
-        AddArgument("UserType", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.userType)> *>(&mRequest.userType));
-        AddArgument("Id", &mRequest.id);
+        AddArgument("attr-name", "max-speed");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadPumpConfigurationAndControlMaxSpeed()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMaxSpeed(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportPumpConfigurationAndControlMaxSpeed : public ModelCommand
+{
+public:
+    ReportPumpConfigurationAndControlMaxSpeed() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "max-speed");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportPumpConfigurationAndControlMaxSpeed()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000016) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockSetRfidResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMaxSpeed(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMaxSpeed(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::DoorLock::Commands::SetRfid::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command SetUserType
+ * Attribute MaxFlow
  */
-class DoorLockSetUserType : public ModelCommand
+class ReadPumpConfigurationAndControlMaxFlow : public ModelCommand
 {
 public:
-    DoorLockSetUserType() : ModelCommand("set-user-type")
+    ReadPumpConfigurationAndControlMaxFlow() : ModelCommand("read")
     {
-        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
-        AddArgument("UserType", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.userType)> *>(&mRequest.userType));
+        AddArgument("attr-name", "max-flow");
         ModelCommand::AddArguments();
     }
 
+    ~ReadPumpConfigurationAndControlMaxFlow()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000014) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockSetUserTypeResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMaxFlow(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::DoorLock::Commands::SetUserType::Type mRequest;
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportPumpConfigurationAndControlMaxFlow : public ModelCommand
+{
+public:
+    ReportPumpConfigurationAndControlMaxFlow() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "max-flow");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportPumpConfigurationAndControlMaxFlow()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMaxFlow(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMaxFlow(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command SetWeekdaySchedule
+ * Attribute MinConstPressure
  */
-class DoorLockSetWeekdaySchedule : public ModelCommand
+class ReadPumpConfigurationAndControlMinConstPressure : public ModelCommand
 {
 public:
-    DoorLockSetWeekdaySchedule() : ModelCommand("set-weekday-schedule")
+    ReadPumpConfigurationAndControlMinConstPressure() : ModelCommand("read")
     {
-        AddArgument("ScheduleId", 0, UINT8_MAX, &mRequest.scheduleId);
-        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
-        AddArgument(
-            "DaysMask", 0, UINT8_MAX,
-            reinterpret_cast<std::underlying_type_t<chip::app::Clusters::DoorLock::DoorLockDayOfWeek> *>(&mRequest.daysMask));
-        AddArgument("StartHour", 0, UINT8_MAX, &mRequest.startHour);
-        AddArgument("StartMinute", 0, UINT8_MAX, &mRequest.startMinute);
-        AddArgument("EndHour", 0, UINT8_MAX, &mRequest.endHour);
-        AddArgument("EndMinute", 0, UINT8_MAX, &mRequest.endMinute);
+        AddArgument("attr-name", "min-const-pressure");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadPumpConfigurationAndControlMinConstPressure()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMinConstPressure(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+    }
+
+private:
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+};
+
+class ReportPumpConfigurationAndControlMinConstPressure : public ModelCommand
+{
+public:
+    ReportPumpConfigurationAndControlMinConstPressure() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "min-const-pressure");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportPumpConfigurationAndControlMinConstPressure()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x0000000B) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockSetWeekdayScheduleResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
-    }
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        cluster.Associate(device, endpointId);
 
-private:
-    chip::app::Clusters::DoorLock::Commands::SetWeekdaySchedule::Type mRequest;
-};
+        ReturnErrorOnFailure(cluster.ReportAttributeMinConstPressure(onReportCallback->Cancel()));
 
-/*
- * Command SetYeardaySchedule
- */
-class DoorLockSetYeardaySchedule : public ModelCommand
-{
-public:
-    DoorLockSetYeardaySchedule() : ModelCommand("set-yearday-schedule")
-    {
-        AddArgument("ScheduleId", 0, UINT8_MAX, &mRequest.scheduleId);
-        AddArgument("UserId", 0, UINT16_MAX, &mRequest.userId);
-        AddArgument("LocalStartTime", 0, UINT32_MAX, &mRequest.localStartTime);
-        AddArgument("LocalEndTime", 0, UINT32_MAX, &mRequest.localEndTime);
-        ModelCommand::AddArguments();
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMinConstPressure(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x0000000E) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockSetYeardayScheduleResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::DoorLock::Commands::SetYeardaySchedule::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command UnlockDoor
+ * Attribute MaxConstPressure
  */
-class DoorLockUnlockDoor : public ModelCommand
+class ReadPumpConfigurationAndControlMaxConstPressure : public ModelCommand
 {
 public:
-    DoorLockUnlockDoor() : ModelCommand("unlock-door")
+    ReadPumpConfigurationAndControlMaxConstPressure() : ModelCommand("read")
     {
-        AddArgument("Pin", &mRequest.pin);
+        AddArgument("attr-name", "max-const-pressure");
         ModelCommand::AddArguments();
     }
 
+    ~ReadPumpConfigurationAndControlMaxConstPressure()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000001) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockUnlockDoorResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMaxConstPressure(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::DoorLock::Commands::UnlockDoor::Type mRequest;
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command UnlockWithTimeout
- */
-class DoorLockUnlockWithTimeout : public ModelCommand
+class ReportPumpConfigurationAndControlMaxConstPressure : public ModelCommand
 {
 public:
-    DoorLockUnlockWithTimeout() : ModelCommand("unlock-with-timeout")
+    ReportPumpConfigurationAndControlMaxConstPressure() : ModelCommand("report")
     {
-        AddArgument("TimeoutInSeconds", 0, UINT16_MAX, &mRequest.timeoutInSeconds);
-        AddArgument("Pin", &mRequest.pin);
+        AddArgument("attr-name", "max-const-pressure");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportPumpConfigurationAndControlMaxConstPressure()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000101) command (0x00000003) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDoorLockUnlockWithTimeoutResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMaxConstPressure(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMaxConstPressure(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::DoorLock::Commands::UnlockWithTimeout::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute LockState
+ * Attribute MinCompPressure
  */
-class ReadDoorLockLockState : public ModelCommand
+class ReadPumpConfigurationAndControlMinCompPressure : public ModelCommand
 {
 public:
-    ReadDoorLockLockState() : ModelCommand("read")
+    ReadPumpConfigurationAndControlMinCompPressure() : ModelCommand("read")
     {
-        AddArgument("attr-name", "lock-state");
+        AddArgument("attr-name", "min-comp-pressure");
         ModelCommand::AddArguments();
     }
 
-    ~ReadDoorLockLockState()
+    ~ReadPumpConfigurationAndControlMinCompPressure()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -11090,33 +29980,33 @@ class ReadDoorLockLockState : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0101) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::DoorLockCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeLockState(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeMinCompPressure(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class ReportDoorLockLockState : public ModelCommand
+class ReportPumpConfigurationAndControlMinCompPressure : public ModelCommand
 {
 public:
-    ReportDoorLockLockState() : ModelCommand("report")
+    ReportPumpConfigurationAndControlMinCompPressure() : ModelCommand("report")
     {
-        AddArgument("attr-name", "lock-state");
+        AddArgument("attr-name", "min-comp-pressure");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportDoorLockLockState()
+    ~ReportPumpConfigurationAndControlMinCompPressure()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -11126,15 +30016,15 @@ class ReportDoorLockLockState : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0101) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::DoorLockCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeLockState(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeMinCompPressure(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeLockState(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeMinCompPressure(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -11149,26 +30039,26 @@ class ReportDoorLockLockState : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
     uint16_t mMinInterval;
     uint16_t mMaxInterval;
     bool mWait;
 };
 
 /*
- * Attribute LockType
+ * Attribute MaxCompPressure
  */
-class ReadDoorLockLockType : public ModelCommand
+class ReadPumpConfigurationAndControlMaxCompPressure : public ModelCommand
 {
 public:
-    ReadDoorLockLockType() : ModelCommand("read")
+    ReadPumpConfigurationAndControlMaxCompPressure() : ModelCommand("read")
     {
-        AddArgument("attr-name", "lock-type");
+        AddArgument("attr-name", "max-comp-pressure");
         ModelCommand::AddArguments();
     }
 
-    ~ReadDoorLockLockType()
+    ~ReadPumpConfigurationAndControlMaxCompPressure()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -11176,67 +30066,85 @@ class ReadDoorLockLockType : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0101) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::DoorLockCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeLockType(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeMaxCompPressure(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ActuatorEnabled
- */
-class ReadDoorLockActuatorEnabled : public ModelCommand
+class ReportPumpConfigurationAndControlMaxCompPressure : public ModelCommand
 {
 public:
-    ReadDoorLockActuatorEnabled() : ModelCommand("read")
+    ReportPumpConfigurationAndControlMaxCompPressure() : ModelCommand("report")
     {
-        AddArgument("attr-name", "actuator-enabled");
+        AddArgument("attr-name", "max-comp-pressure");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadDoorLockActuatorEnabled()
+    ~ReportPumpConfigurationAndControlMaxCompPressure()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0101) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::DoorLockCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeActuatorEnabled(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMaxCompPressure(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMaxCompPressure(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute MinConstSpeed
  */
-class ReadDoorLockClusterRevision : public ModelCommand
+class ReadPumpConfigurationAndControlMinConstSpeed : public ModelCommand
 {
 public:
-    ReadDoorLockClusterRevision() : ModelCommand("read")
+    ReadPumpConfigurationAndControlMinConstSpeed() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "min-const-speed");
         ModelCommand::AddArguments();
     }
 
-    ~ReadDoorLockClusterRevision()
+    ~ReadPumpConfigurationAndControlMinConstSpeed()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -11244,11 +30152,11 @@ class ReadDoorLockClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0101) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::DoorLockCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeMinConstSpeed(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -11258,73 +30166,71 @@ class ReadDoorLockClusterRevision : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster ElectricalMeasurement                                       | 0x0B04 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * MeasurementType                                                   | 0x0000 |
-| * TotalActivePower                                                  | 0x0304 |
-| * RmsVoltage                                                        | 0x0505 |
-| * RmsVoltageMin                                                     | 0x0506 |
-| * RmsVoltageMax                                                     | 0x0507 |
-| * RmsCurrent                                                        | 0x0508 |
-| * RmsCurrentMin                                                     | 0x0509 |
-| * RmsCurrentMax                                                     | 0x050A |
-| * ActivePower                                                       | 0x050B |
-| * ActivePowerMin                                                    | 0x050C |
-| * ActivePowerMax                                                    | 0x050D |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Attribute MeasurementType
- */
-class ReadElectricalMeasurementMeasurementType : public ModelCommand
+class ReportPumpConfigurationAndControlMinConstSpeed : public ModelCommand
 {
 public:
-    ReadElectricalMeasurementMeasurementType() : ModelCommand("read")
+    ReportPumpConfigurationAndControlMinConstSpeed() : ModelCommand("report")
     {
-        AddArgument("attr-name", "measurement-type");
+        AddArgument("attr-name", "min-const-speed");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadElectricalMeasurementMeasurementType()
+    ~ReportPumpConfigurationAndControlMinConstSpeed()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ElectricalMeasurementCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMeasurementType(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMinConstSpeed(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMinConstSpeed(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute TotalActivePower
+ * Attribute MaxConstSpeed
  */
-class ReadElectricalMeasurementTotalActivePower : public ModelCommand
+class ReadPumpConfigurationAndControlMaxConstSpeed : public ModelCommand
 {
 public:
-    ReadElectricalMeasurementTotalActivePower() : ModelCommand("read")
+    ReadPumpConfigurationAndControlMaxConstSpeed() : ModelCommand("read")
     {
-        AddArgument("attr-name", "total-active-power");
+        AddArgument("attr-name", "max-const-speed");
         ModelCommand::AddArguments();
     }
 
-    ~ReadElectricalMeasurementTotalActivePower()
+    ~ReadPumpConfigurationAndControlMaxConstSpeed()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -11332,67 +30238,85 @@ class ReadElectricalMeasurementTotalActivePower : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ElectricalMeasurementCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTotalActivePower(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeMaxConstSpeed(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32sAttributeCallback>(OnInt32sAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute RmsVoltage
- */
-class ReadElectricalMeasurementRmsVoltage : public ModelCommand
+class ReportPumpConfigurationAndControlMaxConstSpeed : public ModelCommand
 {
 public:
-    ReadElectricalMeasurementRmsVoltage() : ModelCommand("read")
+    ReportPumpConfigurationAndControlMaxConstSpeed() : ModelCommand("report")
     {
-        AddArgument("attr-name", "rms-voltage");
+        AddArgument("attr-name", "max-const-speed");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadElectricalMeasurementRmsVoltage()
+    ~ReportPumpConfigurationAndControlMaxConstSpeed()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ElectricalMeasurementCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRmsVoltage(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMaxConstSpeed(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMaxConstSpeed(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute RmsVoltageMin
+ * Attribute MinConstFlow
  */
-class ReadElectricalMeasurementRmsVoltageMin : public ModelCommand
+class ReadPumpConfigurationAndControlMinConstFlow : public ModelCommand
 {
 public:
-    ReadElectricalMeasurementRmsVoltageMin() : ModelCommand("read")
+    ReadPumpConfigurationAndControlMinConstFlow() : ModelCommand("read")
     {
-        AddArgument("attr-name", "rms-voltage-min");
+        AddArgument("attr-name", "min-const-flow");
         ModelCommand::AddArguments();
     }
 
-    ~ReadElectricalMeasurementRmsVoltageMin()
+    ~ReadPumpConfigurationAndControlMinConstFlow()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -11400,11 +30324,11 @@ class ReadElectricalMeasurementRmsVoltageMin : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ElectricalMeasurementCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRmsVoltageMin(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeMinConstFlow(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -11414,53 +30338,71 @@ class ReadElectricalMeasurementRmsVoltageMin : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute RmsVoltageMax
- */
-class ReadElectricalMeasurementRmsVoltageMax : public ModelCommand
+class ReportPumpConfigurationAndControlMinConstFlow : public ModelCommand
 {
 public:
-    ReadElectricalMeasurementRmsVoltageMax() : ModelCommand("read")
+    ReportPumpConfigurationAndControlMinConstFlow() : ModelCommand("report")
     {
-        AddArgument("attr-name", "rms-voltage-max");
+        AddArgument("attr-name", "min-const-flow");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadElectricalMeasurementRmsVoltageMax()
+    ~ReportPumpConfigurationAndControlMinConstFlow()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ElectricalMeasurementCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRmsVoltageMax(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMinConstFlow(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMinConstFlow(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute RmsCurrent
+ * Attribute MaxConstFlow
  */
-class ReadElectricalMeasurementRmsCurrent : public ModelCommand
+class ReadPumpConfigurationAndControlMaxConstFlow : public ModelCommand
 {
 public:
-    ReadElectricalMeasurementRmsCurrent() : ModelCommand("read")
+    ReadPumpConfigurationAndControlMaxConstFlow() : ModelCommand("read")
     {
-        AddArgument("attr-name", "rms-current");
+        AddArgument("attr-name", "max-const-flow");
         ModelCommand::AddArguments();
     }
 
-    ~ReadElectricalMeasurementRmsCurrent()
+    ~ReadPumpConfigurationAndControlMaxConstFlow()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -11468,11 +30410,11 @@ class ReadElectricalMeasurementRmsCurrent : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ElectricalMeasurementCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRmsCurrent(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeMaxConstFlow(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -11482,53 +30424,71 @@ class ReadElectricalMeasurementRmsCurrent : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute RmsCurrentMin
- */
-class ReadElectricalMeasurementRmsCurrentMin : public ModelCommand
+class ReportPumpConfigurationAndControlMaxConstFlow : public ModelCommand
 {
 public:
-    ReadElectricalMeasurementRmsCurrentMin() : ModelCommand("read")
+    ReportPumpConfigurationAndControlMaxConstFlow() : ModelCommand("report")
     {
-        AddArgument("attr-name", "rms-current-min");
+        AddArgument("attr-name", "max-const-flow");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadElectricalMeasurementRmsCurrentMin()
+    ~ReportPumpConfigurationAndControlMaxConstFlow()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ElectricalMeasurementCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRmsCurrentMin(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMaxConstFlow(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMaxConstFlow(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute RmsCurrentMax
+ * Attribute MinConstTemp
  */
-class ReadElectricalMeasurementRmsCurrentMax : public ModelCommand
+class ReadPumpConfigurationAndControlMinConstTemp : public ModelCommand
 {
 public:
-    ReadElectricalMeasurementRmsCurrentMax() : ModelCommand("read")
+    ReadPumpConfigurationAndControlMinConstTemp() : ModelCommand("read")
     {
-        AddArgument("attr-name", "rms-current-max");
+        AddArgument("attr-name", "min-const-temp");
         ModelCommand::AddArguments();
     }
 
-    ~ReadElectricalMeasurementRmsCurrentMax()
+    ~ReadPumpConfigurationAndControlMinConstTemp()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -11536,67 +30496,85 @@ class ReadElectricalMeasurementRmsCurrentMax : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ElectricalMeasurementCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRmsCurrentMax(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeMinConstTemp(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ActivePower
- */
-class ReadElectricalMeasurementActivePower : public ModelCommand
+class ReportPumpConfigurationAndControlMinConstTemp : public ModelCommand
 {
 public:
-    ReadElectricalMeasurementActivePower() : ModelCommand("read")
+    ReportPumpConfigurationAndControlMinConstTemp() : ModelCommand("report")
     {
-        AddArgument("attr-name", "active-power");
+        AddArgument("attr-name", "min-const-temp");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadElectricalMeasurementActivePower()
+    ~ReportPumpConfigurationAndControlMinConstTemp()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ElectricalMeasurementCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeActivePower(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMinConstTemp(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMinConstTemp(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ActivePowerMin
+ * Attribute MaxConstTemp
  */
-class ReadElectricalMeasurementActivePowerMin : public ModelCommand
+class ReadPumpConfigurationAndControlMaxConstTemp : public ModelCommand
 {
 public:
-    ReadElectricalMeasurementActivePowerMin() : ModelCommand("read")
+    ReadPumpConfigurationAndControlMaxConstTemp() : ModelCommand("read")
     {
-        AddArgument("attr-name", "active-power-min");
+        AddArgument("attr-name", "max-const-temp");
         ModelCommand::AddArguments();
     }
 
-    ~ReadElectricalMeasurementActivePowerMin()
+    ~ReadPumpConfigurationAndControlMaxConstTemp()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -11604,11 +30582,11 @@ class ReadElectricalMeasurementActivePowerMin : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ElectricalMeasurementCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeActivePowerMin(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeMaxConstTemp(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -11618,53 +30596,71 @@ class ReadElectricalMeasurementActivePowerMin : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ActivePowerMax
- */
-class ReadElectricalMeasurementActivePowerMax : public ModelCommand
+class ReportPumpConfigurationAndControlMaxConstTemp : public ModelCommand
 {
 public:
-    ReadElectricalMeasurementActivePowerMax() : ModelCommand("read")
+    ReportPumpConfigurationAndControlMaxConstTemp() : ModelCommand("report")
     {
-        AddArgument("attr-name", "active-power-max");
+        AddArgument("attr-name", "max-const-temp");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadElectricalMeasurementActivePowerMax()
+    ~ReportPumpConfigurationAndControlMaxConstTemp()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ElectricalMeasurementCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeActivePowerMax(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMaxConstTemp(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMaxConstTemp(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute PumpStatus
  */
-class ReadElectricalMeasurementClusterRevision : public ModelCommand
+class ReadPumpConfigurationAndControlPumpStatus : public ModelCommand
 {
 public:
-    ReadElectricalMeasurementClusterRevision() : ModelCommand("read")
+    ReadPumpConfigurationAndControlPumpStatus() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "pump-status");
         ModelCommand::AddArguments();
     }
 
-    ~ReadElectricalMeasurementClusterRevision()
+    ~ReadPumpConfigurationAndControlPumpStatus()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -11672,11 +30668,11 @@ class ReadElectricalMeasurementClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0B04) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ElectricalMeasurementCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePumpStatus(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -11686,57 +30682,71 @@ class ReadElectricalMeasurementClusterRevision : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster EthernetNetworkDiagnostics                                  | 0x0037 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * ResetCounts                                                       |   0x00 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * PHYRate                                                           | 0x0000 |
-| * FullDuplex                                                        | 0x0001 |
-| * PacketRxCount                                                     | 0x0002 |
-| * PacketTxCount                                                     | 0x0003 |
-| * TxErrCount                                                        | 0x0004 |
-| * CollisionCount                                                    | 0x0005 |
-| * OverrunCount                                                      | 0x0006 |
-| * CarrierDetect                                                     | 0x0007 |
-| * TimeSinceReset                                                    | 0x0008 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Command ResetCounts
- */
-class EthernetNetworkDiagnosticsResetCounts : public ModelCommand
+class ReportPumpConfigurationAndControlPumpStatus : public ModelCommand
 {
 public:
-    EthernetNetworkDiagnosticsResetCounts() : ModelCommand("reset-counts") { ModelCommand::AddArguments(); }
+    ReportPumpConfigurationAndControlPumpStatus() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "pump-status");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportPumpConfigurationAndControlPumpStatus()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000037) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributePumpStatus(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePumpStatus(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::EthernetNetworkDiagnostics::Commands::ResetCounts::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute PHYRate
+ * Attribute EffectiveOperationMode
  */
-class ReadEthernetNetworkDiagnosticsPHYRate : public ModelCommand
+class ReadPumpConfigurationAndControlEffectiveOperationMode : public ModelCommand
 {
 public:
-    ReadEthernetNetworkDiagnosticsPHYRate() : ModelCommand("read")
+    ReadPumpConfigurationAndControlEffectiveOperationMode() : ModelCommand("read")
     {
-        AddArgument("attr-name", "phyrate");
+        AddArgument("attr-name", "effective-operation-mode");
         ModelCommand::AddArguments();
     }
 
-    ~ReadEthernetNetworkDiagnosticsPHYRate()
+    ~ReadPumpConfigurationAndControlEffectiveOperationMode()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -11744,11 +30754,11 @@ class ReadEthernetNetworkDiagnosticsPHYRate : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePHYRate(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeEffectiveOperationMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -11758,53 +30768,72 @@ class ReadEthernetNetworkDiagnosticsPHYRate : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute FullDuplex
- */
-class ReadEthernetNetworkDiagnosticsFullDuplex : public ModelCommand
+class ReportPumpConfigurationAndControlEffectiveOperationMode : public ModelCommand
 {
 public:
-    ReadEthernetNetworkDiagnosticsFullDuplex() : ModelCommand("read")
+    ReportPumpConfigurationAndControlEffectiveOperationMode() : ModelCommand("report")
     {
-        AddArgument("attr-name", "full-duplex");
+        AddArgument("attr-name", "effective-operation-mode");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadEthernetNetworkDiagnosticsFullDuplex()
+    ~ReportPumpConfigurationAndControlEffectiveOperationMode()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeFullDuplex(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeEffectiveOperationMode(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeEffectiveOperationMode(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute PacketRxCount
+ * Attribute EffectiveControlMode
  */
-class ReadEthernetNetworkDiagnosticsPacketRxCount : public ModelCommand
+class ReadPumpConfigurationAndControlEffectiveControlMode : public ModelCommand
 {
 public:
-    ReadEthernetNetworkDiagnosticsPacketRxCount() : ModelCommand("read")
+    ReadPumpConfigurationAndControlEffectiveControlMode() : ModelCommand("read")
     {
-        AddArgument("attr-name", "packet-rx-count");
+        AddArgument("attr-name", "effective-control-mode");
         ModelCommand::AddArguments();
     }
 
-    ~ReadEthernetNetworkDiagnosticsPacketRxCount()
+    ~ReadPumpConfigurationAndControlEffectiveControlMode()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -11812,67 +30841,86 @@ class ReadEthernetNetworkDiagnosticsPacketRxCount : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePacketRxCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeEffectiveControlMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute PacketTxCount
- */
-class ReadEthernetNetworkDiagnosticsPacketTxCount : public ModelCommand
+class ReportPumpConfigurationAndControlEffectiveControlMode : public ModelCommand
 {
 public:
-    ReadEthernetNetworkDiagnosticsPacketTxCount() : ModelCommand("read")
+    ReportPumpConfigurationAndControlEffectiveControlMode() : ModelCommand("report")
     {
-        AddArgument("attr-name", "packet-tx-count");
+        AddArgument("attr-name", "effective-control-mode");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadEthernetNetworkDiagnosticsPacketTxCount()
+    ~ReportPumpConfigurationAndControlEffectiveControlMode()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePacketTxCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeEffectiveControlMode(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeEffectiveControlMode(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                              mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute TxErrCount
+ * Attribute Capacity
  */
-class ReadEthernetNetworkDiagnosticsTxErrCount : public ModelCommand
+class ReadPumpConfigurationAndControlCapacity : public ModelCommand
 {
 public:
-    ReadEthernetNetworkDiagnosticsTxErrCount() : ModelCommand("read")
+    ReadPumpConfigurationAndControlCapacity() : ModelCommand("read")
     {
-        AddArgument("attr-name", "tx-err-count");
+        AddArgument("attr-name", "capacity");
         ModelCommand::AddArguments();
     }
 
-    ~ReadEthernetNetworkDiagnosticsTxErrCount()
+    ~ReadPumpConfigurationAndControlCapacity()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -11880,67 +30928,85 @@ class ReadEthernetNetworkDiagnosticsTxErrCount : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTxErrCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeCapacity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute CollisionCount
- */
-class ReadEthernetNetworkDiagnosticsCollisionCount : public ModelCommand
+class ReportPumpConfigurationAndControlCapacity : public ModelCommand
 {
 public:
-    ReadEthernetNetworkDiagnosticsCollisionCount() : ModelCommand("read")
+    ReportPumpConfigurationAndControlCapacity() : ModelCommand("report")
     {
-        AddArgument("attr-name", "collision-count");
+        AddArgument("attr-name", "capacity");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadEthernetNetworkDiagnosticsCollisionCount()
+    ~ReportPumpConfigurationAndControlCapacity()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCollisionCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCapacity(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCapacity(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute OverrunCount
+ * Attribute Speed
  */
-class ReadEthernetNetworkDiagnosticsOverrunCount : public ModelCommand
+class ReadPumpConfigurationAndControlSpeed : public ModelCommand
 {
 public:
-    ReadEthernetNetworkDiagnosticsOverrunCount() : ModelCommand("read")
+    ReadPumpConfigurationAndControlSpeed() : ModelCommand("read")
     {
-        AddArgument("attr-name", "overrun-count");
+        AddArgument("attr-name", "speed");
         ModelCommand::AddArguments();
     }
 
-    ~ReadEthernetNetworkDiagnosticsOverrunCount()
+    ~ReadPumpConfigurationAndControlSpeed()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -11948,67 +31014,85 @@ class ReadEthernetNetworkDiagnosticsOverrunCount : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOverrunCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeSpeed(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute CarrierDetect
- */
-class ReadEthernetNetworkDiagnosticsCarrierDetect : public ModelCommand
+class ReportPumpConfigurationAndControlSpeed : public ModelCommand
 {
 public:
-    ReadEthernetNetworkDiagnosticsCarrierDetect() : ModelCommand("read")
+    ReportPumpConfigurationAndControlSpeed() : ModelCommand("report")
     {
-        AddArgument("attr-name", "carrier-detect");
+        AddArgument("attr-name", "speed");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadEthernetNetworkDiagnosticsCarrierDetect()
+    ~ReportPumpConfigurationAndControlSpeed()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCarrierDetect(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeSpeed(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeSpeed(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute TimeSinceReset
+ * Attribute LifetimeEnergyConsumed
  */
-class ReadEthernetNetworkDiagnosticsTimeSinceReset : public ModelCommand
+class ReadPumpConfigurationAndControlLifetimeEnergyConsumed : public ModelCommand
 {
 public:
-    ReadEthernetNetworkDiagnosticsTimeSinceReset() : ModelCommand("read")
+    ReadPumpConfigurationAndControlLifetimeEnergyConsumed() : ModelCommand("read")
     {
-        AddArgument("attr-name", "time-since-reset");
+        AddArgument("attr-name", "lifetime-energy-consumed");
         ModelCommand::AddArguments();
     }
 
-    ~ReadEthernetNetworkDiagnosticsTimeSinceReset()
+    ~ReadPumpConfigurationAndControlLifetimeEnergyConsumed()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -12016,77 +31100,86 @@ class ReadEthernetNetworkDiagnosticsTimeSinceReset : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTimeSinceReset(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeLifetimeEnergyConsumed(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadEthernetNetworkDiagnosticsClusterRevision : public ModelCommand
+class ReportPumpConfigurationAndControlLifetimeEnergyConsumed : public ModelCommand
 {
 public:
-    ReadEthernetNetworkDiagnosticsClusterRevision() : ModelCommand("read")
+    ReportPumpConfigurationAndControlLifetimeEnergyConsumed() : ModelCommand("report")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "lifetime-energy-consumed");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadEthernetNetworkDiagnosticsClusterRevision()
+    ~ReportPumpConfigurationAndControlLifetimeEnergyConsumed()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0037) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::EthernetNetworkDiagnosticsCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeLifetimeEnergyConsumed(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeLifetimeEnergyConsumed(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster FixedLabel                                                  | 0x0040 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * LabelList                                                         | 0x0000 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
 /*
- * Attribute LabelList
+ * Attribute OperationMode
  */
-class ReadFixedLabelLabelList : public ModelCommand
+class ReadPumpConfigurationAndControlOperationMode : public ModelCommand
 {
 public:
-    ReadFixedLabelLabelList() : ModelCommand("read")
+    ReadPumpConfigurationAndControlOperationMode() : ModelCommand("read")
     {
-        AddArgument("attr-name", "label-list");
+        AddArgument("attr-name", "operation-mode");
         ModelCommand::AddArguments();
     }
 
-    ~ReadFixedLabelLabelList()
+    ~ReadPumpConfigurationAndControlOperationMode()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -12094,33 +31187,31 @@ class ReadFixedLabelLabelList : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0040) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::FixedLabelCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeLabelList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeOperationMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<FixedLabelLabelListListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<FixedLabelLabelListListAttributeCallback>(OnFixedLabelLabelListListAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadFixedLabelClusterRevision : public ModelCommand
+class WritePumpConfigurationAndControlOperationMode : public ModelCommand
 {
 public:
-    ReadFixedLabelClusterRevision() : ModelCommand("read")
+    WritePumpConfigurationAndControlOperationMode() : ModelCommand("write")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "operation-mode");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadFixedLabelClusterRevision()
+    ~WritePumpConfigurationAndControlOperationMode()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -12128,80 +31219,86 @@ class ReadFixedLabelClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0040) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::FixedLabelCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeOperationMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster FlowMeasurement                                             | 0x0404 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * MeasuredValue                                                     | 0x0000 |
-| * MinMeasuredValue                                                  | 0x0001 |
-| * MaxMeasuredValue                                                  | 0x0002 |
-| * Tolerance                                                         | 0x0003 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Attribute MeasuredValue
- */
-class ReadFlowMeasurementMeasuredValue : public ModelCommand
+class ReportPumpConfigurationAndControlOperationMode : public ModelCommand
 {
 public:
-    ReadFlowMeasurementMeasuredValue() : ModelCommand("read")
+    ReportPumpConfigurationAndControlOperationMode() : ModelCommand("report")
     {
-        AddArgument("attr-name", "measured-value");
+        AddArgument("attr-name", "operation-mode");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadFlowMeasurementMeasuredValue()
+    ~ReportPumpConfigurationAndControlOperationMode()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0404) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::FlowMeasurementCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOperationMode(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOperationMode(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute MinMeasuredValue
+ * Attribute ControlMode
  */
-class ReadFlowMeasurementMinMeasuredValue : public ModelCommand
+class ReadPumpConfigurationAndControlControlMode : public ModelCommand
 {
 public:
-    ReadFlowMeasurementMinMeasuredValue() : ModelCommand("read")
+    ReadPumpConfigurationAndControlControlMode() : ModelCommand("read")
     {
-        AddArgument("attr-name", "min-measured-value");
+        AddArgument("attr-name", "control-mode");
         ModelCommand::AddArguments();
     }
 
-    ~ReadFlowMeasurementMinMeasuredValue()
+    ~ReadPumpConfigurationAndControlControlMode()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -12209,33 +31306,31 @@ class ReadFlowMeasurementMinMeasuredValue : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0404) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::FlowMeasurementCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMinMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeControlMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute MaxMeasuredValue
- */
-class ReadFlowMeasurementMaxMeasuredValue : public ModelCommand
+class WritePumpConfigurationAndControlControlMode : public ModelCommand
 {
 public:
-    ReadFlowMeasurementMaxMeasuredValue() : ModelCommand("read")
+    WritePumpConfigurationAndControlControlMode() : ModelCommand("write")
     {
-        AddArgument("attr-name", "max-measured-value");
+        AddArgument("attr-name", "control-mode");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadFlowMeasurementMaxMeasuredValue()
+    ~WritePumpConfigurationAndControlControlMode()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -12243,67 +31338,86 @@ class ReadFlowMeasurementMaxMeasuredValue : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0404) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::FlowMeasurementCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMaxMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeControlMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
 };
 
-/*
- * Attribute Tolerance
- */
-class ReadFlowMeasurementTolerance : public ModelCommand
+class ReportPumpConfigurationAndControlControlMode : public ModelCommand
 {
 public:
-    ReadFlowMeasurementTolerance() : ModelCommand("read")
+    ReportPumpConfigurationAndControlControlMode() : ModelCommand("report")
     {
-        AddArgument("attr-name", "tolerance");
+        AddArgument("attr-name", "control-mode");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadFlowMeasurementTolerance()
+    ~ReportPumpConfigurationAndControlControlMode()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0404) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::FlowMeasurementCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTolerance(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeControlMode(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeControlMode(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute AlarmMask
  */
-class ReadFlowMeasurementClusterRevision : public ModelCommand
+class ReadPumpConfigurationAndControlAlarmMask : public ModelCommand
 {
 public:
-    ReadFlowMeasurementClusterRevision() : ModelCommand("read")
+    ReadPumpConfigurationAndControlAlarmMask() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "alarm-mask");
         ModelCommand::AddArguments();
     }
 
-    ~ReadFlowMeasurementClusterRevision()
+    ~ReadPumpConfigurationAndControlAlarmMask()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -12311,11 +31425,11 @@ class ReadFlowMeasurementClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0404) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::FlowMeasurementCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeAlarmMask(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -12325,107 +31439,71 @@ class ReadFlowMeasurementClusterRevision : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster GeneralCommissioning                                        | 0x0030 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * ArmFailSafe                                                       |   0x00 |
-| * CommissioningComplete                                             |   0x04 |
-| * SetRegulatoryConfig                                               |   0x02 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * Breadcrumb                                                        | 0x0000 |
-| * BasicCommissioningInfoList                                        | 0x0001 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Command ArmFailSafe
- */
-class GeneralCommissioningArmFailSafe : public ModelCommand
+class ReportPumpConfigurationAndControlAlarmMask : public ModelCommand
 {
 public:
-    GeneralCommissioningArmFailSafe() : ModelCommand("arm-fail-safe")
+    ReportPumpConfigurationAndControlAlarmMask() : ModelCommand("report")
     {
-        AddArgument("ExpiryLengthSeconds", 0, UINT16_MAX, &mRequest.expiryLengthSeconds);
-        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
-        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
+        AddArgument("attr-name", "alarm-mask");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    ~ReportPumpConfigurationAndControlAlarmMask()
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000030) command (0x00000000) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnGeneralCommissioningArmFailSafeResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
     }
 
-private:
-    chip::app::Clusters::GeneralCommissioning::Commands::ArmFailSafe::Type mRequest;
-};
-
-/*
- * Command CommissioningComplete
- */
-class GeneralCommissioningCommissioningComplete : public ModelCommand
-{
-public:
-    GeneralCommissioningCommissioningComplete() : ModelCommand("commissioning-complete") { ModelCommand::AddArguments(); }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000030) command (0x00000004) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnGeneralCommissioningCommissioningCompleteResponseSuccess,
-                                               OnDefaultFailure, endpointId, mRequest);
-    }
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        cluster.Associate(device, endpointId);
 
-private:
-    chip::app::Clusters::GeneralCommissioning::Commands::CommissioningComplete::Type mRequest;
-};
+        ReturnErrorOnFailure(cluster.ReportAttributeAlarmMask(onReportCallback->Cancel()));
 
-/*
- * Command SetRegulatoryConfig
- */
-class GeneralCommissioningSetRegulatoryConfig : public ModelCommand
-{
-public:
-    GeneralCommissioningSetRegulatoryConfig() : ModelCommand("set-regulatory-config")
-    {
-        AddArgument("Location", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.location)> *>(&mRequest.location));
-        AddArgument("CountryCode", &mRequest.countryCode);
-        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
-        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
-        ModelCommand::AddArguments();
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeAlarmMask(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000030) command (0x00000002) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnGeneralCommissioningSetRegulatoryConfigResponseSuccess,
-                                               OnDefaultFailure, endpointId, mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::GeneralCommissioning::Commands::SetRegulatoryConfig::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute Breadcrumb
+ * Attribute FeatureMap
  */
-class ReadGeneralCommissioningBreadcrumb : public ModelCommand
+class ReadPumpConfigurationAndControlFeatureMap : public ModelCommand
 {
 public:
-    ReadGeneralCommissioningBreadcrumb() : ModelCommand("read")
+    ReadPumpConfigurationAndControlFeatureMap() : ModelCommand("read")
     {
-        AddArgument("attr-name", "breadcrumb");
+        AddArgument("attr-name", "feature-map");
         ModelCommand::AddArguments();
     }
 
-    ~ReadGeneralCommissioningBreadcrumb()
+    ~ReadPumpConfigurationAndControlFeatureMap()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -12433,66 +31511,85 @@ class ReadGeneralCommissioningBreadcrumb : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0030) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::GeneralCommissioningCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeBreadcrumb(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeFeatureMap(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteGeneralCommissioningBreadcrumb : public ModelCommand
+class ReportPumpConfigurationAndControlFeatureMap : public ModelCommand
 {
 public:
-    WriteGeneralCommissioningBreadcrumb() : ModelCommand("write")
+    ReportPumpConfigurationAndControlFeatureMap() : ModelCommand("report")
     {
-        AddArgument("attr-name", "breadcrumb");
-        AddArgument("attr-value", 0, UINT64_MAX, &mValue);
+        AddArgument("attr-name", "feature-map");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteGeneralCommissioningBreadcrumb()
+    ~ReportPumpConfigurationAndControlFeatureMap()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0030) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::GeneralCommissioningCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeBreadcrumb(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeFeatureMap(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeFeatureMap(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint64_t mValue;
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute BasicCommissioningInfoList
+ * Attribute ClusterRevision
  */
-class ReadGeneralCommissioningBasicCommissioningInfoList : public ModelCommand
+class ReadPumpConfigurationAndControlClusterRevision : public ModelCommand
 {
 public:
-    ReadGeneralCommissioningBasicCommissioningInfoList() : ModelCommand("read")
+    ReadPumpConfigurationAndControlClusterRevision() : ModelCommand("read")
     {
-        AddArgument("attr-name", "basic-commissioning-info-list");
+        AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
-    ~ReadGeneralCommissioningBasicCommissioningInfoList()
+    ~ReadPumpConfigurationAndControlClusterRevision()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -12500,85 +31597,98 @@ class ReadGeneralCommissioningBasicCommissioningInfoList : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0030) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::GeneralCommissioningCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeBasicCommissioningInfoList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<GeneralCommissioningBasicCommissioningInfoListListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<GeneralCommissioningBasicCommissioningInfoListListAttributeCallback>(
-            OnGeneralCommissioningBasicCommissioningInfoListListAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadGeneralCommissioningClusterRevision : public ModelCommand
+class ReportPumpConfigurationAndControlClusterRevision : public ModelCommand
 {
 public:
-    ReadGeneralCommissioningClusterRevision() : ModelCommand("read")
+    ReportPumpConfigurationAndControlClusterRevision() : ModelCommand("report")
     {
         AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadGeneralCommissioningClusterRevision()
+    ~ReportPumpConfigurationAndControlClusterRevision()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0030) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::GeneralCommissioningCluster cluster;
+        chip::Controller::PumpConfigurationAndControlCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*----------------------------------------------------------------------------*\
-| Cluster GeneralDiagnostics                                          | 0x0033 |
+| Cluster RelativeHumidityMeasurement                                 | 0x0405 |
 |------------------------------------------------------------------------------|
 | Commands:                                                           |        |
 |------------------------------------------------------------------------------|
 | Attributes:                                                         |        |
-| * NetworkInterfaces                                                 | 0x0000 |
-| * RebootCount                                                       | 0x0001 |
-| * UpTime                                                            | 0x0002 |
-| * TotalOperationalHours                                             | 0x0003 |
-| * BootReasons                                                       | 0x0004 |
-| * ActiveHardwareFaults                                              | 0x0005 |
-| * ActiveRadioFaults                                                 | 0x0006 |
-| * ActiveNetworkFaults                                               | 0x0007 |
+| * MeasuredValue                                                     | 0x0000 |
+| * MinMeasuredValue                                                  | 0x0001 |
+| * MaxMeasuredValue                                                  | 0x0002 |
+| * Tolerance                                                         | 0x0003 |
 | * ClusterRevision                                                   | 0xFFFD |
 \*----------------------------------------------------------------------------*/
 
 /*
- * Attribute NetworkInterfaces
+ * Attribute MeasuredValue
  */
-class ReadGeneralDiagnosticsNetworkInterfaces : public ModelCommand
+class ReadRelativeHumidityMeasurementMeasuredValue : public ModelCommand
 {
 public:
-    ReadGeneralDiagnosticsNetworkInterfaces() : ModelCommand("read")
+    ReadRelativeHumidityMeasurementMeasuredValue() : ModelCommand("read")
     {
-        AddArgument("attr-name", "network-interfaces");
+        AddArgument("attr-name", "measured-value");
         ModelCommand::AddArguments();
     }
 
-    ~ReadGeneralDiagnosticsNetworkInterfaces()
+    ~ReadRelativeHumidityMeasurementMeasuredValue()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -12586,102 +31696,85 @@ class ReadGeneralDiagnosticsNetworkInterfaces : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0405) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::GeneralDiagnosticsCluster cluster;
+        chip::Controller::RelativeHumidityMeasurementCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNetworkInterfaces(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<GeneralDiagnosticsNetworkInterfacesListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<GeneralDiagnosticsNetworkInterfacesListAttributeCallback>(
-            OnGeneralDiagnosticsNetworkInterfacesListAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute RebootCount
- */
-class ReadGeneralDiagnosticsRebootCount : public ModelCommand
+class ReportRelativeHumidityMeasurementMeasuredValue : public ModelCommand
 {
 public:
-    ReadGeneralDiagnosticsRebootCount() : ModelCommand("read")
+    ReportRelativeHumidityMeasurementMeasuredValue() : ModelCommand("report")
     {
-        AddArgument("attr-name", "reboot-count");
+        AddArgument("attr-name", "measured-value");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadGeneralDiagnosticsRebootCount()
+    ~ReportRelativeHumidityMeasurementMeasuredValue()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0405) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::GeneralDiagnosticsCluster cluster;
+        chip::Controller::RelativeHumidityMeasurementCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRebootCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
-    }
-
-private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-};
 
-/*
- * Attribute UpTime
- */
-class ReadGeneralDiagnosticsUpTime : public ModelCommand
-{
-public:
-    ReadGeneralDiagnosticsUpTime() : ModelCommand("read")
-    {
-        AddArgument("attr-name", "up-time");
-        ModelCommand::AddArguments();
-    }
+        ReturnErrorOnFailure(cluster.ReportAttributeMeasuredValue(onReportCallback->Cancel()));
 
-    ~ReadGeneralDiagnosticsUpTime()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMeasuredValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x00) on endpoint %" PRIu8, endpointId);
-
-        chip::Controller::GeneralDiagnosticsCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeUpTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute TotalOperationalHours
+ * Attribute MinMeasuredValue
  */
-class ReadGeneralDiagnosticsTotalOperationalHours : public ModelCommand
+class ReadRelativeHumidityMeasurementMinMeasuredValue : public ModelCommand
 {
 public:
-    ReadGeneralDiagnosticsTotalOperationalHours() : ModelCommand("read")
+    ReadRelativeHumidityMeasurementMinMeasuredValue() : ModelCommand("read")
     {
-        AddArgument("attr-name", "total-operational-hours");
+        AddArgument("attr-name", "min-measured-value");
         ModelCommand::AddArguments();
     }
 
-    ~ReadGeneralDiagnosticsTotalOperationalHours()
+    ~ReadRelativeHumidityMeasurementMinMeasuredValue()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -12689,67 +31782,85 @@ class ReadGeneralDiagnosticsTotalOperationalHours : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0405) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::GeneralDiagnosticsCluster cluster;
+        chip::Controller::RelativeHumidityMeasurementCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTotalOperationalHours(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeMinMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute BootReasons
- */
-class ReadGeneralDiagnosticsBootReasons : public ModelCommand
+class ReportRelativeHumidityMeasurementMinMeasuredValue : public ModelCommand
 {
 public:
-    ReadGeneralDiagnosticsBootReasons() : ModelCommand("read")
+    ReportRelativeHumidityMeasurementMinMeasuredValue() : ModelCommand("report")
     {
-        AddArgument("attr-name", "boot-reasons");
+        AddArgument("attr-name", "min-measured-value");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadGeneralDiagnosticsBootReasons()
+    ~ReportRelativeHumidityMeasurementMinMeasuredValue()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0405) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::GeneralDiagnosticsCluster cluster;
+        chip::Controller::RelativeHumidityMeasurementCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeBootReasons(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMinMeasuredValue(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMinMeasuredValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ActiveHardwareFaults
+ * Attribute MaxMeasuredValue
  */
-class ReadGeneralDiagnosticsActiveHardwareFaults : public ModelCommand
+class ReadRelativeHumidityMeasurementMaxMeasuredValue : public ModelCommand
 {
 public:
-    ReadGeneralDiagnosticsActiveHardwareFaults() : ModelCommand("read")
+    ReadRelativeHumidityMeasurementMaxMeasuredValue() : ModelCommand("read")
     {
-        AddArgument("attr-name", "active-hardware-faults");
+        AddArgument("attr-name", "max-measured-value");
         ModelCommand::AddArguments();
     }
 
-    ~ReadGeneralDiagnosticsActiveHardwareFaults()
+    ~ReadRelativeHumidityMeasurementMaxMeasuredValue()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -12757,104 +31868,85 @@ class ReadGeneralDiagnosticsActiveHardwareFaults : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0405) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::GeneralDiagnosticsCluster cluster;
+        chip::Controller::RelativeHumidityMeasurementCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeActiveHardwareFaults(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeMaxMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<GeneralDiagnosticsActiveHardwareFaultsListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<GeneralDiagnosticsActiveHardwareFaultsListAttributeCallback>(
-            OnGeneralDiagnosticsActiveHardwareFaultsListAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ActiveRadioFaults
- */
-class ReadGeneralDiagnosticsActiveRadioFaults : public ModelCommand
+class ReportRelativeHumidityMeasurementMaxMeasuredValue : public ModelCommand
 {
 public:
-    ReadGeneralDiagnosticsActiveRadioFaults() : ModelCommand("read")
+    ReportRelativeHumidityMeasurementMaxMeasuredValue() : ModelCommand("report")
     {
-        AddArgument("attr-name", "active-radio-faults");
+        AddArgument("attr-name", "max-measured-value");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadGeneralDiagnosticsActiveRadioFaults()
+    ~ReportRelativeHumidityMeasurementMaxMeasuredValue()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0405) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::GeneralDiagnosticsCluster cluster;
+        chip::Controller::RelativeHumidityMeasurementCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeActiveRadioFaults(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
-    }
-
-private:
-    chip::Callback::Callback<GeneralDiagnosticsActiveRadioFaultsListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<GeneralDiagnosticsActiveRadioFaultsListAttributeCallback>(
-            OnGeneralDiagnosticsActiveRadioFaultsListAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-};
 
-/*
- * Attribute ActiveNetworkFaults
- */
-class ReadGeneralDiagnosticsActiveNetworkFaults : public ModelCommand
-{
-public:
-    ReadGeneralDiagnosticsActiveNetworkFaults() : ModelCommand("read")
-    {
-        AddArgument("attr-name", "active-network-faults");
-        ModelCommand::AddArguments();
-    }
+        ReturnErrorOnFailure(cluster.ReportAttributeMaxMeasuredValue(onReportCallback->Cancel()));
 
-    ~ReadGeneralDiagnosticsActiveNetworkFaults()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMaxMeasuredValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x00) on endpoint %" PRIu8, endpointId);
-
-        chip::Controller::GeneralDiagnosticsCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeActiveNetworkFaults(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<GeneralDiagnosticsActiveNetworkFaultsListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<GeneralDiagnosticsActiveNetworkFaultsListAttributeCallback>(
-            OnGeneralDiagnosticsActiveNetworkFaultsListAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute Tolerance
  */
-class ReadGeneralDiagnosticsClusterRevision : public ModelCommand
+class ReadRelativeHumidityMeasurementTolerance : public ModelCommand
 {
 public:
-    ReadGeneralDiagnosticsClusterRevision() : ModelCommand("read")
+    ReadRelativeHumidityMeasurementTolerance() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "tolerance");
         ModelCommand::AddArguments();
     }
 
-    ~ReadGeneralDiagnosticsClusterRevision()
+    ~ReadRelativeHumidityMeasurementTolerance()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -12862,11 +31954,11 @@ class ReadGeneralDiagnosticsClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0033) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0405) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::GeneralDiagnosticsCluster cluster;
+        chip::Controller::RelativeHumidityMeasurementCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTolerance(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -12876,65 +31968,71 @@ class ReadGeneralDiagnosticsClusterRevision : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster GroupKeyManagement                                          | 0xF004 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * Groups                                                            | 0x0000 |
-| * GroupKeys                                                         | 0x0001 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Attribute Groups
- */
-class ReadGroupKeyManagementGroups : public ModelCommand
+class ReportRelativeHumidityMeasurementTolerance : public ModelCommand
 {
 public:
-    ReadGroupKeyManagementGroups() : ModelCommand("read")
+    ReportRelativeHumidityMeasurementTolerance() : ModelCommand("report")
     {
-        AddArgument("attr-name", "groups");
+        AddArgument("attr-name", "tolerance");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadGroupKeyManagementGroups()
+    ~ReportRelativeHumidityMeasurementTolerance()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0xF004) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0405) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::GroupKeyManagementCluster cluster;
+        chip::Controller::RelativeHumidityMeasurementCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeGroups(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTolerance(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTolerance(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<GroupKeyManagementGroupsListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<GroupKeyManagementGroupsListAttributeCallback>(OnGroupKeyManagementGroupsListAttributeResponse,
-                                                                                    this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute GroupKeys
+ * Attribute ClusterRevision
  */
-class ReadGroupKeyManagementGroupKeys : public ModelCommand
+class ReadRelativeHumidityMeasurementClusterRevision : public ModelCommand
 {
 public:
-    ReadGroupKeyManagementGroupKeys() : ModelCommand("read")
+    ReadRelativeHumidityMeasurementClusterRevision() : ModelCommand("read")
     {
-        AddArgument("attr-name", "group-keys");
+        AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
-    ~ReadGroupKeyManagementGroupKeys()
+    ~ReadRelativeHumidityMeasurementClusterRevision()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -12942,258 +32040,282 @@ class ReadGroupKeyManagementGroupKeys : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0xF004) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0405) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::GroupKeyManagementCluster cluster;
+        chip::Controller::RelativeHumidityMeasurementCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeGroupKeys(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<GroupKeyManagementGroupKeysListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<GroupKeyManagementGroupKeysListAttributeCallback>(
-            OnGroupKeyManagementGroupKeysListAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadGroupKeyManagementClusterRevision : public ModelCommand
+class ReportRelativeHumidityMeasurementClusterRevision : public ModelCommand
 {
 public:
-    ReadGroupKeyManagementClusterRevision() : ModelCommand("read")
+    ReportRelativeHumidityMeasurementClusterRevision() : ModelCommand("report")
     {
         AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadGroupKeyManagementClusterRevision()
+    ~ReportRelativeHumidityMeasurementClusterRevision()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0xF004) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0405) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::GroupKeyManagementCluster cluster;
+        chip::Controller::RelativeHumidityMeasurementCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*----------------------------------------------------------------------------*\
-| Cluster Groups                                                      | 0x0004 |
+| Cluster Scenes                                                      | 0x0005 |
 |------------------------------------------------------------------------------|
 | Commands:                                                           |        |
-| * AddGroup                                                          |   0x00 |
-| * AddGroupIfIdentifying                                             |   0x05 |
-| * GetGroupMembership                                                |   0x02 |
-| * RemoveAllGroups                                                   |   0x04 |
-| * RemoveGroup                                                       |   0x03 |
-| * ViewGroup                                                         |   0x01 |
+| * AddScene                                                          |   0x00 |
+| * GetSceneMembership                                                |   0x06 |
+| * RecallScene                                                       |   0x05 |
+| * RemoveAllScenes                                                   |   0x03 |
+| * RemoveScene                                                       |   0x02 |
+| * StoreScene                                                        |   0x04 |
+| * ViewScene                                                         |   0x01 |
 |------------------------------------------------------------------------------|
 | Attributes:                                                         |        |
-| * NameSupport                                                       | 0x0000 |
+| * SceneCount                                                        | 0x0000 |
+| * CurrentScene                                                      | 0x0001 |
+| * CurrentGroup                                                      | 0x0002 |
+| * SceneValid                                                        | 0x0003 |
+| * NameSupport                                                       | 0x0004 |
 | * ClusterRevision                                                   | 0xFFFD |
 \*----------------------------------------------------------------------------*/
 
 /*
- * Command AddGroup
+ * Command AddScene
  */
-class GroupsAddGroup : public ModelCommand
+class ScenesAddScene : public ModelCommand
 {
 public:
-    GroupsAddGroup() : ModelCommand("add-group")
+    ScenesAddScene() : ModelCommand("add-scene")
     {
         AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
-        AddArgument("GroupName", &mRequest.groupName);
+        AddArgument("SceneId", 0, UINT8_MAX, &mRequest.sceneId);
+        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
+        AddArgument("SceneName", &mRequest.sceneName);
+        // extensionFieldSets Array parsing is not supported yet
         ModelCommand::AddArguments();
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000004) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000005) command (0x00000000) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnGroupsAddGroupResponseSuccess, OnDefaultFailure, endpointId,
+        return chip::Controller::InvokeCommand(device, this, OnScenesAddSceneResponseSuccess, OnDefaultFailure, endpointId,
                                                mRequest);
     }
 
 private:
-    chip::app::Clusters::Groups::Commands::AddGroup::Type mRequest;
+    chip::app::Clusters::Scenes::Commands::AddScene::Type mRequest;
 };
 
 /*
- * Command AddGroupIfIdentifying
+ * Command GetSceneMembership
  */
-class GroupsAddGroupIfIdentifying : public ModelCommand
+class ScenesGetSceneMembership : public ModelCommand
 {
 public:
-    GroupsAddGroupIfIdentifying() : ModelCommand("add-group-if-identifying")
+    ScenesGetSceneMembership() : ModelCommand("get-scene-membership")
     {
         AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
-        AddArgument("GroupName", &mRequest.groupName);
         ModelCommand::AddArguments();
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000004) command (0x00000005) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000005) command (0x00000006) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        return chip::Controller::InvokeCommand(device, this, OnScenesGetSceneMembershipResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::Groups::Commands::AddGroupIfIdentifying::Type mRequest;
+    chip::app::Clusters::Scenes::Commands::GetSceneMembership::Type mRequest;
 };
 
 /*
- * Command GetGroupMembership
+ * Command RecallScene
  */
-class GroupsGetGroupMembership : public ModelCommand
+class ScenesRecallScene : public ModelCommand
 {
 public:
-    GroupsGetGroupMembership() : ModelCommand("get-group-membership")
+    ScenesRecallScene() : ModelCommand("recall-scene")
     {
-        // groupList Array parsing is not supported yet
+        AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
+        AddArgument("SceneId", 0, UINT8_MAX, &mRequest.sceneId);
+        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
         ModelCommand::AddArguments();
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000004) command (0x00000002) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000005) command (0x00000005) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnGroupsGetGroupMembershipResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::Groups::Commands::GetGroupMembership::Type mRequest;
+    chip::app::Clusters::Scenes::Commands::RecallScene::Type mRequest;
 };
 
 /*
- * Command RemoveAllGroups
+ * Command RemoveAllScenes
  */
-class GroupsRemoveAllGroups : public ModelCommand
+class ScenesRemoveAllScenes : public ModelCommand
 {
 public:
-    GroupsRemoveAllGroups() : ModelCommand("remove-all-groups") { ModelCommand::AddArguments(); }
+    ScenesRemoveAllScenes() : ModelCommand("remove-all-scenes")
+    {
+        AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
+        ModelCommand::AddArguments();
+    }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000004) command (0x00000004) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000005) command (0x00000003) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        return chip::Controller::InvokeCommand(device, this, OnScenesRemoveAllScenesResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
     }
 
 private:
-    chip::app::Clusters::Groups::Commands::RemoveAllGroups::Type mRequest;
+    chip::app::Clusters::Scenes::Commands::RemoveAllScenes::Type mRequest;
 };
 
 /*
- * Command RemoveGroup
+ * Command RemoveScene
  */
-class GroupsRemoveGroup : public ModelCommand
+class ScenesRemoveScene : public ModelCommand
 {
 public:
-    GroupsRemoveGroup() : ModelCommand("remove-group")
+    ScenesRemoveScene() : ModelCommand("remove-scene")
     {
         AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
+        AddArgument("SceneId", 0, UINT8_MAX, &mRequest.sceneId);
         ModelCommand::AddArguments();
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000004) command (0x00000003) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000005) command (0x00000002) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnGroupsRemoveGroupResponseSuccess, OnDefaultFailure, endpointId,
+        return chip::Controller::InvokeCommand(device, this, OnScenesRemoveSceneResponseSuccess, OnDefaultFailure, endpointId,
                                                mRequest);
     }
 
 private:
-    chip::app::Clusters::Groups::Commands::RemoveGroup::Type mRequest;
+    chip::app::Clusters::Scenes::Commands::RemoveScene::Type mRequest;
 };
 
 /*
- * Command ViewGroup
+ * Command StoreScene
  */
-class GroupsViewGroup : public ModelCommand
+class ScenesStoreScene : public ModelCommand
 {
 public:
-    GroupsViewGroup() : ModelCommand("view-group")
+    ScenesStoreScene() : ModelCommand("store-scene")
     {
         AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
+        AddArgument("SceneId", 0, UINT8_MAX, &mRequest.sceneId);
         ModelCommand::AddArguments();
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000004) command (0x00000001) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000005) command (0x00000004) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnGroupsViewGroupResponseSuccess, OnDefaultFailure, endpointId,
+        return chip::Controller::InvokeCommand(device, this, OnScenesStoreSceneResponseSuccess, OnDefaultFailure, endpointId,
                                                mRequest);
     }
 
 private:
-    chip::app::Clusters::Groups::Commands::ViewGroup::Type mRequest;
+    chip::app::Clusters::Scenes::Commands::StoreScene::Type mRequest;
 };
 
 /*
- * Attribute NameSupport
+ * Command ViewScene
  */
-class ReadGroupsNameSupport : public ModelCommand
+class ScenesViewScene : public ModelCommand
 {
 public:
-    ReadGroupsNameSupport() : ModelCommand("read")
+    ScenesViewScene() : ModelCommand("view-scene")
     {
-        AddArgument("attr-name", "name-support");
+        AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
+        AddArgument("SceneId", 0, UINT8_MAX, &mRequest.sceneId);
         ModelCommand::AddArguments();
     }
 
-    ~ReadGroupsNameSupport()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0004) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000005) command (0x00000001) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::GroupsCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNameSupport(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnScenesViewSceneResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::Scenes::Commands::ViewScene::Type mRequest;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute SceneCount
  */
-class ReadGroupsClusterRevision : public ModelCommand
+class ReadScenesSceneCount : public ModelCommand
 {
 public:
-    ReadGroupsClusterRevision() : ModelCommand("read")
+    ReadScenesSceneCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "scene-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadGroupsClusterRevision()
+    ~ReadScenesSceneCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -13201,116 +32323,85 @@ class ReadGroupsClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0004) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0005) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::GroupsCluster cluster;
+        chip::Controller::ScenesCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeSceneCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster Identify                                                    | 0x0003 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * Identify                                                          |   0x00 |
-| * IdentifyQuery                                                     |   0x01 |
-| * TriggerEffect                                                     |   0x40 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * IdentifyTime                                                      | 0x0000 |
-| * IdentifyType                                                      | 0x0001 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Command Identify
- */
-class IdentifyIdentify : public ModelCommand
+class ReportScenesSceneCount : public ModelCommand
 {
 public:
-    IdentifyIdentify() : ModelCommand("identify")
+    ReportScenesSceneCount() : ModelCommand("report")
     {
-        AddArgument("IdentifyTime", 0, UINT16_MAX, &mRequest.identifyTime);
+        AddArgument("attr-name", "scene-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    ~ReportScenesSceneCount()
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000003) command (0x00000000) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
     }
 
-private:
-    chip::app::Clusters::Identify::Commands::Identify::Type mRequest;
-};
-
-/*
- * Command IdentifyQuery
- */
-class IdentifyIdentifyQuery : public ModelCommand
-{
-public:
-    IdentifyIdentifyQuery() : ModelCommand("identify-query") { ModelCommand::AddArguments(); }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000003) command (0x00000001) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0005) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnIdentifyIdentifyQueryResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
-    }
+        chip::Controller::ScenesCluster cluster;
+        cluster.Associate(device, endpointId);
 
-private:
-    chip::app::Clusters::Identify::Commands::IdentifyQuery::Type mRequest;
-};
+        ReturnErrorOnFailure(cluster.ReportAttributeSceneCount(onReportCallback->Cancel()));
 
-/*
- * Command TriggerEffect
- */
-class IdentifyTriggerEffect : public ModelCommand
-{
-public:
-    IdentifyTriggerEffect() : ModelCommand("trigger-effect")
-    {
-        AddArgument("EffectIdentifier", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.effectIdentifier)> *>(&mRequest.effectIdentifier));
-        AddArgument("EffectVariant", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.effectVariant)> *>(&mRequest.effectVariant));
-        ModelCommand::AddArguments();
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeSceneCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000003) command (0x00000040) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::Identify::Commands::TriggerEffect::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute IdentifyTime
+ * Attribute CurrentScene
  */
-class ReadIdentifyIdentifyTime : public ModelCommand
+class ReadScenesCurrentScene : public ModelCommand
 {
 public:
-    ReadIdentifyIdentifyTime() : ModelCommand("read")
+    ReadScenesCurrentScene() : ModelCommand("read")
     {
-        AddArgument("attr-name", "identify-time");
+        AddArgument("attr-name", "current-scene");
         ModelCommand::AddArguments();
     }
 
-    ~ReadIdentifyIdentifyTime()
+    ~ReadScenesCurrentScene()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -13318,66 +32409,85 @@ class ReadIdentifyIdentifyTime : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0003) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0005) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::IdentifyCluster cluster;
+        chip::Controller::ScenesCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeIdentifyTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeCurrentScene(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteIdentifyIdentifyTime : public ModelCommand
+class ReportScenesCurrentScene : public ModelCommand
 {
 public:
-    WriteIdentifyIdentifyTime() : ModelCommand("write")
+    ReportScenesCurrentScene() : ModelCommand("report")
     {
-        AddArgument("attr-name", "identify-time");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "current-scene");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteIdentifyIdentifyTime()
+    ~ReportScenesCurrentScene()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0003) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0005) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::IdentifyCluster cluster;
+        chip::Controller::ScenesCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeIdentifyTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentScene(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentScene(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute IdentifyType
+ * Attribute CurrentGroup
  */
-class ReadIdentifyIdentifyType : public ModelCommand
+class ReadScenesCurrentGroup : public ModelCommand
 {
 public:
-    ReadIdentifyIdentifyType() : ModelCommand("read")
+    ReadScenesCurrentGroup() : ModelCommand("read")
     {
-        AddArgument("attr-name", "identify-type");
+        AddArgument("attr-name", "current-group");
         ModelCommand::AddArguments();
     }
 
-    ~ReadIdentifyIdentifyType()
+    ~ReadScenesCurrentGroup()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -13385,81 +32495,85 @@ class ReadIdentifyIdentifyType : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0003) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0005) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::IdentifyCluster cluster;
+        chip::Controller::ScenesCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeIdentifyType(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeCurrentGroup(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadIdentifyClusterRevision : public ModelCommand
+class ReportScenesCurrentGroup : public ModelCommand
 {
 public:
-    ReadIdentifyClusterRevision() : ModelCommand("read")
+    ReportScenesCurrentGroup() : ModelCommand("report")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "current-group");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadIdentifyClusterRevision()
+    ~ReportScenesCurrentGroup()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0003) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0005) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::IdentifyCluster cluster;
+        chip::Controller::ScenesCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentGroup(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentGroup(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster IlluminanceMeasurement                                      | 0x0400 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * MeasuredValue                                                     | 0x0000 |
-| * MinMeasuredValue                                                  | 0x0001 |
-| * MaxMeasuredValue                                                  | 0x0002 |
-| * Tolerance                                                         | 0x0003 |
-| * LightSensorType                                                   | 0x0004 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
 /*
- * Attribute MeasuredValue
+ * Attribute SceneValid
  */
-class ReadIlluminanceMeasurementMeasuredValue : public ModelCommand
+class ReadScenesSceneValid : public ModelCommand
 {
 public:
-    ReadIlluminanceMeasurementMeasuredValue() : ModelCommand("read")
+    ReadScenesSceneValid() : ModelCommand("read")
     {
-        AddArgument("attr-name", "measured-value");
+        AddArgument("attr-name", "scene-valid");
         ModelCommand::AddArguments();
     }
 
-    ~ReadIlluminanceMeasurementMeasuredValue()
+    ~ReadScenesSceneValid()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -13467,33 +32581,33 @@ class ReadIlluminanceMeasurementMeasuredValue : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0400) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0005) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::IlluminanceMeasurementCluster cluster;
+        chip::Controller::ScenesCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeSceneValid(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class ReportIlluminanceMeasurementMeasuredValue : public ModelCommand
+class ReportScenesSceneValid : public ModelCommand
 {
 public:
-    ReportIlluminanceMeasurementMeasuredValue() : ModelCommand("report")
+    ReportScenesSceneValid() : ModelCommand("report")
     {
-        AddArgument("attr-name", "measured-value");
+        AddArgument("attr-name", "scene-valid");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportIlluminanceMeasurementMeasuredValue()
+    ~ReportScenesSceneValid()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -13503,15 +32617,15 @@ class ReportIlluminanceMeasurementMeasuredValue : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0400) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0005) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::IlluminanceMeasurementCluster cluster;
+        chip::Controller::ScenesCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeMeasuredValue(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeSceneValid(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeMeasuredValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeSceneValid(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -13526,26 +32640,26 @@ class ReportIlluminanceMeasurementMeasuredValue : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeReport, this);
     uint16_t mMinInterval;
     uint16_t mMaxInterval;
     bool mWait;
 };
 
 /*
- * Attribute MinMeasuredValue
+ * Attribute NameSupport
  */
-class ReadIlluminanceMeasurementMinMeasuredValue : public ModelCommand
+class ReadScenesNameSupport : public ModelCommand
 {
 public:
-    ReadIlluminanceMeasurementMinMeasuredValue() : ModelCommand("read")
+    ReadScenesNameSupport() : ModelCommand("read")
     {
-        AddArgument("attr-name", "min-measured-value");
+        AddArgument("attr-name", "name-support");
         ModelCommand::AddArguments();
     }
 
-    ~ReadIlluminanceMeasurementMinMeasuredValue()
+    ~ReadScenesNameSupport()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -13553,67 +32667,85 @@ class ReadIlluminanceMeasurementMinMeasuredValue : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0400) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0005) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::IlluminanceMeasurementCluster cluster;
+        chip::Controller::ScenesCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMinMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNameSupport(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute MaxMeasuredValue
- */
-class ReadIlluminanceMeasurementMaxMeasuredValue : public ModelCommand
+class ReportScenesNameSupport : public ModelCommand
 {
 public:
-    ReadIlluminanceMeasurementMaxMeasuredValue() : ModelCommand("read")
+    ReportScenesNameSupport() : ModelCommand("report")
     {
-        AddArgument("attr-name", "max-measured-value");
+        AddArgument("attr-name", "name-support");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadIlluminanceMeasurementMaxMeasuredValue()
+    ~ReportScenesNameSupport()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0400) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0005) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::IlluminanceMeasurementCluster cluster;
+        chip::Controller::ScenesCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMaxMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeNameSupport(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeNameSupport(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute Tolerance
+ * Attribute ClusterRevision
  */
-class ReadIlluminanceMeasurementTolerance : public ModelCommand
+class ReadScenesClusterRevision : public ModelCommand
 {
 public:
-    ReadIlluminanceMeasurementTolerance() : ModelCommand("read")
+    ReadScenesClusterRevision() : ModelCommand("read")
     {
-        AddArgument("attr-name", "tolerance");
+        AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
-    ~ReadIlluminanceMeasurementTolerance()
+    ~ReadScenesClusterRevision()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -13621,11 +32753,11 @@ class ReadIlluminanceMeasurementTolerance : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0400) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0005) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::IlluminanceMeasurementCluster cluster;
+        chip::Controller::ScenesCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTolerance(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -13635,122 +32767,104 @@ class ReadIlluminanceMeasurementTolerance : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute LightSensorType
- */
-class ReadIlluminanceMeasurementLightSensorType : public ModelCommand
+class ReportScenesClusterRevision : public ModelCommand
 {
 public:
-    ReadIlluminanceMeasurementLightSensorType() : ModelCommand("read")
+    ReportScenesClusterRevision() : ModelCommand("report")
     {
-        AddArgument("attr-name", "light-sensor-type");
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadIlluminanceMeasurementLightSensorType()
+    ~ReportScenesClusterRevision()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0400) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0005) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::IlluminanceMeasurementCluster cluster;
+        chip::Controller::ScenesCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeLightSensorType(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
-    }
-
-private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-};
 
-/*
- * Attribute ClusterRevision
- */
-class ReadIlluminanceMeasurementClusterRevision : public ModelCommand
-{
-public:
-    ReadIlluminanceMeasurementClusterRevision() : ModelCommand("read")
-    {
-        AddArgument("attr-name", "cluster-revision");
-        ModelCommand::AddArguments();
-    }
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
 
-    ~ReadIlluminanceMeasurementClusterRevision()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0400) command (0x00) on endpoint %" PRIu8, endpointId);
-
-        chip::Controller::IlluminanceMeasurementCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*----------------------------------------------------------------------------*\
-| Cluster KeypadInput                                                 | 0x0509 |
+| Cluster SoftwareDiagnostics                                         | 0x0034 |
 |------------------------------------------------------------------------------|
 | Commands:                                                           |        |
-| * SendKey                                                           |   0x00 |
+| * ResetWatermarks                                                   |   0x00 |
 |------------------------------------------------------------------------------|
 | Attributes:                                                         |        |
+| * ThreadMetrics                                                     | 0x0000 |
+| * CurrentHeapFree                                                   | 0x0001 |
+| * CurrentHeapUsed                                                   | 0x0002 |
+| * CurrentHeapHighWatermark                                          | 0x0003 |
 | * ClusterRevision                                                   | 0xFFFD |
 \*----------------------------------------------------------------------------*/
 
 /*
- * Command SendKey
+ * Command ResetWatermarks
  */
-class KeypadInputSendKey : public ModelCommand
+class SoftwareDiagnosticsResetWatermarks : public ModelCommand
 {
 public:
-    KeypadInputSendKey() : ModelCommand("send-key")
-    {
-        AddArgument("KeyCode", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.keyCode)> *>(&mRequest.keyCode));
-        ModelCommand::AddArguments();
-    }
+    SoftwareDiagnosticsResetWatermarks() : ModelCommand("reset-watermarks") { ModelCommand::AddArguments(); }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000509) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000034) command (0x00000000) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnKeypadInputSendKeyResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::KeypadInput::Commands::SendKey::Type mRequest;
+    chip::app::Clusters::SoftwareDiagnostics::Commands::ResetWatermarks::Type mRequest;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute ThreadMetrics
  */
-class ReadKeypadInputClusterRevision : public ModelCommand
+class ReadSoftwareDiagnosticsThreadMetrics : public ModelCommand
 {
 public:
-    ReadKeypadInputClusterRevision() : ModelCommand("read")
+    ReadSoftwareDiagnosticsThreadMetrics() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "thread-metrics");
         ModelCommand::AddArguments();
     }
 
-    ~ReadKeypadInputClusterRevision()
+    ~ReadSoftwareDiagnosticsThreadMetrics()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -13758,263 +32872,392 @@ class ReadKeypadInputClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0509) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0034) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::KeypadInputCluster cluster;
+        chip::Controller::SoftwareDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeThreadMetrics(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<SoftwareDiagnosticsThreadMetricsListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<SoftwareDiagnosticsThreadMetricsListAttributeCallback>(
+            OnSoftwareDiagnosticsThreadMetricsListAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster LevelControl                                                | 0x0008 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * Move                                                              |   0x01 |
-| * MoveToLevel                                                       |   0x00 |
-| * MoveToLevelWithOnOff                                              |   0x04 |
-| * MoveWithOnOff                                                     |   0x05 |
-| * Step                                                              |   0x02 |
-| * StepWithOnOff                                                     |   0x06 |
-| * Stop                                                              |   0x03 |
-| * StopWithOnOff                                                     |   0x07 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * CurrentLevel                                                      | 0x0000 |
-| * RemainingTime                                                     | 0x0001 |
-| * MinLevel                                                          | 0x0002 |
-| * MaxLevel                                                          | 0x0003 |
-| * CurrentFrequency                                                  | 0x0004 |
-| * MinFrequency                                                      | 0x0005 |
-| * MaxFrequency                                                      | 0x0006 |
-| * Options                                                           | 0x000F |
-| * OnOffTransitionTime                                               | 0x0010 |
-| * OnLevel                                                           | 0x0011 |
-| * OnTransitionTime                                                  | 0x0012 |
-| * OffTransitionTime                                                 | 0x0013 |
-| * DefaultMoveRate                                                   | 0x0014 |
-| * StartUpCurrentLevel                                               | 0x4000 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
 /*
- * Command Move
+ * Attribute CurrentHeapFree
  */
-class LevelControlMove : public ModelCommand
+class ReadSoftwareDiagnosticsCurrentHeapFree : public ModelCommand
 {
 public:
-    LevelControlMove() : ModelCommand("move")
+    ReadSoftwareDiagnosticsCurrentHeapFree() : ModelCommand("read")
     {
-        AddArgument("MoveMode", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.moveMode)> *>(&mRequest.moveMode));
-        AddArgument("Rate", 0, UINT8_MAX, &mRequest.rate);
-        AddArgument("OptionMask", 0, UINT8_MAX, &mRequest.optionMask);
-        AddArgument("OptionOverride", 0, UINT8_MAX, &mRequest.optionOverride);
+        AddArgument("attr-name", "current-heap-free");
         ModelCommand::AddArguments();
     }
 
+    ~ReadSoftwareDiagnosticsCurrentHeapFree()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000008) command (0x00000001) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0034) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::SoftwareDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeCurrentHeapFree(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::LevelControl::Commands::Move::Type mRequest;
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command MoveToLevel
- */
-class LevelControlMoveToLevel : public ModelCommand
+class ReportSoftwareDiagnosticsCurrentHeapFree : public ModelCommand
 {
 public:
-    LevelControlMoveToLevel() : ModelCommand("move-to-level")
+    ReportSoftwareDiagnosticsCurrentHeapFree() : ModelCommand("report")
     {
-        AddArgument("Level", 0, UINT8_MAX, &mRequest.level);
-        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
-        AddArgument("OptionMask", 0, UINT8_MAX, &mRequest.optionMask);
-        AddArgument("OptionOverride", 0, UINT8_MAX, &mRequest.optionOverride);
+        AddArgument("attr-name", "current-heap-free");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportSoftwareDiagnosticsCurrentHeapFree()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000008) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0034) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::SoftwareDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentHeapFree(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentHeapFree(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::LevelControl::Commands::MoveToLevel::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command MoveToLevelWithOnOff
+ * Attribute CurrentHeapUsed
  */
-class LevelControlMoveToLevelWithOnOff : public ModelCommand
+class ReadSoftwareDiagnosticsCurrentHeapUsed : public ModelCommand
 {
 public:
-    LevelControlMoveToLevelWithOnOff() : ModelCommand("move-to-level-with-on-off")
+    ReadSoftwareDiagnosticsCurrentHeapUsed() : ModelCommand("read")
     {
-        AddArgument("Level", 0, UINT8_MAX, &mRequest.level);
-        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
+        AddArgument("attr-name", "current-heap-used");
         ModelCommand::AddArguments();
     }
 
+    ~ReadSoftwareDiagnosticsCurrentHeapUsed()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000008) command (0x00000004) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0034) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::SoftwareDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeCurrentHeapUsed(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::LevelControl::Commands::MoveToLevelWithOnOff::Type mRequest;
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command MoveWithOnOff
- */
-class LevelControlMoveWithOnOff : public ModelCommand
+class ReportSoftwareDiagnosticsCurrentHeapUsed : public ModelCommand
 {
 public:
-    LevelControlMoveWithOnOff() : ModelCommand("move-with-on-off")
+    ReportSoftwareDiagnosticsCurrentHeapUsed() : ModelCommand("report")
     {
-        AddArgument("MoveMode", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.moveMode)> *>(&mRequest.moveMode));
-        AddArgument("Rate", 0, UINT8_MAX, &mRequest.rate);
+        AddArgument("attr-name", "current-heap-used");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportSoftwareDiagnosticsCurrentHeapUsed()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000008) command (0x00000005) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0034) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::SoftwareDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentHeapUsed(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentHeapUsed(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::LevelControl::Commands::MoveWithOnOff::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command Step
+ * Attribute CurrentHeapHighWatermark
  */
-class LevelControlStep : public ModelCommand
+class ReadSoftwareDiagnosticsCurrentHeapHighWatermark : public ModelCommand
 {
 public:
-    LevelControlStep() : ModelCommand("step")
+    ReadSoftwareDiagnosticsCurrentHeapHighWatermark() : ModelCommand("read")
     {
-        AddArgument("StepMode", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.stepMode)> *>(&mRequest.stepMode));
-        AddArgument("StepSize", 0, UINT8_MAX, &mRequest.stepSize);
-        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
-        AddArgument("OptionMask", 0, UINT8_MAX, &mRequest.optionMask);
-        AddArgument("OptionOverride", 0, UINT8_MAX, &mRequest.optionOverride);
+        AddArgument("attr-name", "current-heap-high-watermark");
         ModelCommand::AddArguments();
     }
 
+    ~ReadSoftwareDiagnosticsCurrentHeapHighWatermark()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000008) command (0x00000002) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0034) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::SoftwareDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeCurrentHeapHighWatermark(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::LevelControl::Commands::Step::Type mRequest;
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command StepWithOnOff
- */
-class LevelControlStepWithOnOff : public ModelCommand
+class ReportSoftwareDiagnosticsCurrentHeapHighWatermark : public ModelCommand
 {
 public:
-    LevelControlStepWithOnOff() : ModelCommand("step-with-on-off")
+    ReportSoftwareDiagnosticsCurrentHeapHighWatermark() : ModelCommand("report")
     {
-        AddArgument("StepMode", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.stepMode)> *>(&mRequest.stepMode));
-        AddArgument("StepSize", 0, UINT8_MAX, &mRequest.stepSize);
-        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
+        AddArgument("attr-name", "current-heap-high-watermark");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportSoftwareDiagnosticsCurrentHeapHighWatermark()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000008) command (0x00000006) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0034) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::SoftwareDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentHeapHighWatermark(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentHeapHighWatermark(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                  mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::LevelControl::Commands::StepWithOnOff::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command Stop
+ * Attribute ClusterRevision
  */
-class LevelControlStop : public ModelCommand
+class ReadSoftwareDiagnosticsClusterRevision : public ModelCommand
 {
 public:
-    LevelControlStop() : ModelCommand("stop")
+    ReadSoftwareDiagnosticsClusterRevision() : ModelCommand("read")
     {
-        AddArgument("OptionMask", 0, UINT8_MAX, &mRequest.optionMask);
-        AddArgument("OptionOverride", 0, UINT8_MAX, &mRequest.optionOverride);
+        AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
+    ~ReadSoftwareDiagnosticsClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000008) command (0x00000003) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0034) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::SoftwareDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::LevelControl::Commands::Stop::Type mRequest;
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command StopWithOnOff
- */
-class LevelControlStopWithOnOff : public ModelCommand
+class ReportSoftwareDiagnosticsClusterRevision : public ModelCommand
 {
 public:
-    LevelControlStopWithOnOff() : ModelCommand("stop-with-on-off") { ModelCommand::AddArguments(); }
+    ReportSoftwareDiagnosticsClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportSoftwareDiagnosticsClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000008) command (0x00000007) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0034) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::SoftwareDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::LevelControl::Commands::StopWithOnOff::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
+/*----------------------------------------------------------------------------*\
+| Cluster Switch                                                      | 0x003B |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * NumberOfPositions                                                 | 0x0000 |
+| * CurrentPosition                                                   | 0x0001 |
+| * MultiPressMax                                                     | 0x0002 |
+| * FeatureMap                                                        | 0xFFFC |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
 /*
- * Attribute CurrentLevel
+ * Attribute NumberOfPositions
  */
-class ReadLevelControlCurrentLevel : public ModelCommand
+class ReadSwitchNumberOfPositions : public ModelCommand
 {
 public:
-    ReadLevelControlCurrentLevel() : ModelCommand("read")
+    ReadSwitchNumberOfPositions() : ModelCommand("read")
     {
-        AddArgument("attr-name", "current-level");
+        AddArgument("attr-name", "number-of-positions");
         ModelCommand::AddArguments();
     }
 
-    ~ReadLevelControlCurrentLevel()
+    ~ReadSwitchNumberOfPositions()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -14022,11 +33265,11 @@ class ReadLevelControlCurrentLevel : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x003B) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
+        chip::Controller::SwitchCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentLevel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNumberOfPositions(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -14036,19 +33279,19 @@ class ReadLevelControlCurrentLevel : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class ReportLevelControlCurrentLevel : public ModelCommand
+class ReportSwitchNumberOfPositions : public ModelCommand
 {
 public:
-    ReportLevelControlCurrentLevel() : ModelCommand("report")
+    ReportSwitchNumberOfPositions() : ModelCommand("report")
     {
-        AddArgument("attr-name", "current-level");
+        AddArgument("attr-name", "number-of-positions");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportLevelControlCurrentLevel()
+    ~ReportSwitchNumberOfPositions()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -14058,15 +33301,16 @@ class ReportLevelControlCurrentLevel : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x003B) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
+        chip::Controller::SwitchCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeCurrentLevel(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeNumberOfPositions(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeCurrentLevel(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeNumberOfPositions(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -14089,18 +33333,18 @@ class ReportLevelControlCurrentLevel : public ModelCommand
 };
 
 /*
- * Attribute RemainingTime
+ * Attribute CurrentPosition
  */
-class ReadLevelControlRemainingTime : public ModelCommand
+class ReadSwitchCurrentPosition : public ModelCommand
 {
 public:
-    ReadLevelControlRemainingTime() : ModelCommand("read")
+    ReadSwitchCurrentPosition() : ModelCommand("read")
     {
-        AddArgument("attr-name", "remaining-time");
+        AddArgument("attr-name", "current-position");
         ModelCommand::AddArguments();
     }
 
-    ~ReadLevelControlRemainingTime()
+    ~ReadSwitchCurrentPosition()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -14108,67 +33352,85 @@ class ReadLevelControlRemainingTime : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x003B) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
+        chip::Controller::SwitchCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRemainingTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeCurrentPosition(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute MinLevel
- */
-class ReadLevelControlMinLevel : public ModelCommand
+class ReportSwitchCurrentPosition : public ModelCommand
 {
 public:
-    ReadLevelControlMinLevel() : ModelCommand("read")
+    ReportSwitchCurrentPosition() : ModelCommand("report")
     {
-        AddArgument("attr-name", "min-level");
+        AddArgument("attr-name", "current-position");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadLevelControlMinLevel()
+    ~ReportSwitchCurrentPosition()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x003B) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
+        chip::Controller::SwitchCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMinLevel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentPosition(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentPosition(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute MaxLevel
+ * Attribute MultiPressMax
  */
-class ReadLevelControlMaxLevel : public ModelCommand
+class ReadSwitchMultiPressMax : public ModelCommand
 {
 public:
-    ReadLevelControlMaxLevel() : ModelCommand("read")
+    ReadSwitchMultiPressMax() : ModelCommand("read")
     {
-        AddArgument("attr-name", "max-level");
+        AddArgument("attr-name", "multi-press-max");
         ModelCommand::AddArguments();
     }
 
-    ~ReadLevelControlMaxLevel()
+    ~ReadSwitchMultiPressMax()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -14176,11 +33438,11 @@ class ReadLevelControlMaxLevel : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x003B) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
+        chip::Controller::SwitchCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMaxLevel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeMultiPressMax(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -14190,53 +33452,71 @@ class ReadLevelControlMaxLevel : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute CurrentFrequency
- */
-class ReadLevelControlCurrentFrequency : public ModelCommand
+class ReportSwitchMultiPressMax : public ModelCommand
 {
 public:
-    ReadLevelControlCurrentFrequency() : ModelCommand("read")
+    ReportSwitchMultiPressMax() : ModelCommand("report")
     {
-        AddArgument("attr-name", "current-frequency");
+        AddArgument("attr-name", "multi-press-max");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadLevelControlCurrentFrequency()
+    ~ReportSwitchMultiPressMax()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x003B) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
+        chip::Controller::SwitchCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentFrequency(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMultiPressMax(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMultiPressMax(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute MinFrequency
+ * Attribute FeatureMap
  */
-class ReadLevelControlMinFrequency : public ModelCommand
+class ReadSwitchFeatureMap : public ModelCommand
 {
 public:
-    ReadLevelControlMinFrequency() : ModelCommand("read")
+    ReadSwitchFeatureMap() : ModelCommand("read")
     {
-        AddArgument("attr-name", "min-frequency");
+        AddArgument("attr-name", "feature-map");
         ModelCommand::AddArguments();
     }
 
-    ~ReadLevelControlMinFrequency()
+    ~ReadSwitchFeatureMap()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -14244,67 +33524,85 @@ class ReadLevelControlMinFrequency : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x003B) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
+        chip::Controller::SwitchCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMinFrequency(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeFeatureMap(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute MaxFrequency
- */
-class ReadLevelControlMaxFrequency : public ModelCommand
+class ReportSwitchFeatureMap : public ModelCommand
 {
 public:
-    ReadLevelControlMaxFrequency() : ModelCommand("read")
+    ReportSwitchFeatureMap() : ModelCommand("report")
     {
-        AddArgument("attr-name", "max-frequency");
+        AddArgument("attr-name", "feature-map");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadLevelControlMaxFrequency()
+    ~ReportSwitchFeatureMap()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x003B) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
+        chip::Controller::SwitchCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMaxFrequency(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeFeatureMap(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeFeatureMap(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute Options
+ * Attribute ClusterRevision
  */
-class ReadLevelControlOptions : public ModelCommand
+class ReadSwitchClusterRevision : public ModelCommand
 {
 public:
-    ReadLevelControlOptions() : ModelCommand("read")
+    ReadSwitchClusterRevision() : ModelCommand("read")
     {
-        AddArgument("attr-name", "options");
+        AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
-    ~ReadLevelControlOptions()
+    ~ReadSwitchClusterRevision()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -14312,165 +33610,171 @@ class ReadLevelControlOptions : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x003B) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
+        chip::Controller::SwitchCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOptions(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteLevelControlOptions : public ModelCommand
+class ReportSwitchClusterRevision : public ModelCommand
 {
 public:
-    WriteLevelControlOptions() : ModelCommand("write")
+    ReportSwitchClusterRevision() : ModelCommand("report")
     {
-        AddArgument("attr-name", "options");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteLevelControlOptions()
+    ~ReportSwitchClusterRevision()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x003B) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
+        chip::Controller::SwitchCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeOptions(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
+/*----------------------------------------------------------------------------*\
+| Cluster TvChannel                                                   | 0x0504 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * ChangeChannel                                                     |   0x00 |
+| * ChangeChannelByNumber                                             |   0x01 |
+| * SkipChannel                                                       |   0x02 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * TvChannelList                                                     | 0x0000 |
+| * TvChannelLineup                                                   | 0x0001 |
+| * CurrentTvChannel                                                  | 0x0002 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
 /*
- * Attribute OnOffTransitionTime
+ * Command ChangeChannel
  */
-class ReadLevelControlOnOffTransitionTime : public ModelCommand
+class TvChannelChangeChannel : public ModelCommand
 {
 public:
-    ReadLevelControlOnOffTransitionTime() : ModelCommand("read")
+    TvChannelChangeChannel() : ModelCommand("change-channel")
     {
-        AddArgument("attr-name", "on-off-transition-time");
+        AddArgument("Match", &mRequest.match);
         ModelCommand::AddArguments();
     }
 
-    ~ReadLevelControlOnOffTransitionTime()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000504) command (0x00000000) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOnOffTransitionTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnTvChannelChangeChannelResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::TvChannel::Commands::ChangeChannel::Type mRequest;
 };
 
-class WriteLevelControlOnOffTransitionTime : public ModelCommand
+/*
+ * Command ChangeChannelByNumber
+ */
+class TvChannelChangeChannelByNumber : public ModelCommand
 {
 public:
-    WriteLevelControlOnOffTransitionTime() : ModelCommand("write")
+    TvChannelChangeChannelByNumber() : ModelCommand("change-channel-by-number")
     {
-        AddArgument("attr-name", "on-off-transition-time");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("MajorNumber", 0, UINT16_MAX, &mRequest.majorNumber);
+        AddArgument("MinorNumber", 0, UINT16_MAX, &mRequest.minorNumber);
         ModelCommand::AddArguments();
     }
 
-    ~WriteLevelControlOnOffTransitionTime()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000504) command (0x00000001) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeOnOffTransitionTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
+    chip::app::Clusters::TvChannel::Commands::ChangeChannelByNumber::Type mRequest;
 };
 
 /*
- * Attribute OnLevel
+ * Command SkipChannel
  */
-class ReadLevelControlOnLevel : public ModelCommand
+class TvChannelSkipChannel : public ModelCommand
 {
 public:
-    ReadLevelControlOnLevel() : ModelCommand("read")
+    TvChannelSkipChannel() : ModelCommand("skip-channel")
     {
-        AddArgument("attr-name", "on-level");
+        AddArgument("Count", 0, UINT16_MAX, &mRequest.count);
         ModelCommand::AddArguments();
     }
 
-    ~ReadLevelControlOnLevel()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000504) command (0x00000002) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOnLevel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::TvChannel::Commands::SkipChannel::Type mRequest;
 };
 
-class WriteLevelControlOnLevel : public ModelCommand
+/*
+ * Attribute TvChannelList
+ */
+class ReadTvChannelTvChannelList : public ModelCommand
 {
 public:
-    WriteLevelControlOnLevel() : ModelCommand("write")
+    ReadTvChannelTvChannelList() : ModelCommand("read")
     {
-        AddArgument("attr-name", "on-level");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "tv-channel-list");
         ModelCommand::AddArguments();
     }
 
-    ~WriteLevelControlOnLevel()
+    ~ReadTvChannelTvChannelList()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -14478,34 +33782,34 @@ class WriteLevelControlOnLevel : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0504) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
+        chip::Controller::TvChannelCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeOnLevel(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return cluster.ReadAttributeTvChannelList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<TvChannelTvChannelListListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<TvChannelTvChannelListListAttributeCallback>(OnTvChannelTvChannelListListAttributeResponse,
+                                                                                  this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
 };
 
 /*
- * Attribute OnTransitionTime
+ * Attribute TvChannelLineup
  */
-class ReadLevelControlOnTransitionTime : public ModelCommand
+class ReadTvChannelTvChannelLineup : public ModelCommand
 {
 public:
-    ReadLevelControlOnTransitionTime() : ModelCommand("read")
+    ReadTvChannelTvChannelLineup() : ModelCommand("read")
     {
-        AddArgument("attr-name", "on-transition-time");
+        AddArgument("attr-name", "tv-channel-lineup");
         ModelCommand::AddArguments();
     }
 
-    ~ReadLevelControlOnTransitionTime()
+    ~ReadTvChannelTvChannelLineup()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -14513,66 +33817,85 @@ class ReadLevelControlOnTransitionTime : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0504) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
+        chip::Controller::TvChannelCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOnTransitionTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTvChannelLineup(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteLevelControlOnTransitionTime : public ModelCommand
+class ReportTvChannelTvChannelLineup : public ModelCommand
 {
 public:
-    WriteLevelControlOnTransitionTime() : ModelCommand("write")
+    ReportTvChannelTvChannelLineup() : ModelCommand("report")
     {
-        AddArgument("attr-name", "on-transition-time");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "tv-channel-lineup");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteLevelControlOnTransitionTime()
+    ~ReportTvChannelTvChannelLineup()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0504) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
+        chip::Controller::TvChannelCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeOnTransitionTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTvChannelLineup(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTvChannelLineup(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute OffTransitionTime
+ * Attribute CurrentTvChannel
  */
-class ReadLevelControlOffTransitionTime : public ModelCommand
+class ReadTvChannelCurrentTvChannel : public ModelCommand
 {
 public:
-    ReadLevelControlOffTransitionTime() : ModelCommand("read")
+    ReadTvChannelCurrentTvChannel() : ModelCommand("read")
     {
-        AddArgument("attr-name", "off-transition-time");
+        AddArgument("attr-name", "current-tv-channel");
         ModelCommand::AddArguments();
     }
 
-    ~ReadLevelControlOffTransitionTime()
+    ~ReadTvChannelCurrentTvChannel()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -14580,66 +33903,85 @@ class ReadLevelControlOffTransitionTime : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0504) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
+        chip::Controller::TvChannelCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOffTransitionTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeCurrentTvChannel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteLevelControlOffTransitionTime : public ModelCommand
+class ReportTvChannelCurrentTvChannel : public ModelCommand
 {
 public:
-    WriteLevelControlOffTransitionTime() : ModelCommand("write")
+    ReportTvChannelCurrentTvChannel() : ModelCommand("report")
     {
-        AddArgument("attr-name", "off-transition-time");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "current-tv-channel");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteLevelControlOffTransitionTime()
+    ~ReportTvChannelCurrentTvChannel()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0504) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
+        chip::Controller::TvChannelCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeOffTransitionTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentTvChannel(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentTvChannel(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute DefaultMoveRate
+ * Attribute ClusterRevision
  */
-class ReadLevelControlDefaultMoveRate : public ModelCommand
+class ReadTvChannelClusterRevision : public ModelCommand
 {
 public:
-    ReadLevelControlDefaultMoveRate() : ModelCommand("read")
+    ReadTvChannelClusterRevision() : ModelCommand("read")
     {
-        AddArgument("attr-name", "default-move-rate");
+        AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
-    ~ReadLevelControlDefaultMoveRate()
+    ~ReadTvChannelClusterRevision()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -14647,98 +33989,121 @@ class ReadLevelControlDefaultMoveRate : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0504) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
+        chip::Controller::TvChannelCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeDefaultMoveRate(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteLevelControlDefaultMoveRate : public ModelCommand
+class ReportTvChannelClusterRevision : public ModelCommand
 {
 public:
-    WriteLevelControlDefaultMoveRate() : ModelCommand("write")
+    ReportTvChannelClusterRevision() : ModelCommand("report")
     {
-        AddArgument("attr-name", "default-move-rate");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteLevelControlDefaultMoveRate()
+    ~ReportTvChannelClusterRevision()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0504) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
+        chip::Controller::TvChannelCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeDefaultMoveRate(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
+/*----------------------------------------------------------------------------*\
+| Cluster TargetNavigator                                             | 0x0505 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * NavigateTarget                                                    |   0x00 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * TargetNavigatorList                                               | 0x0000 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
 /*
- * Attribute StartUpCurrentLevel
+ * Command NavigateTarget
  */
-class ReadLevelControlStartUpCurrentLevel : public ModelCommand
+class TargetNavigatorNavigateTarget : public ModelCommand
 {
 public:
-    ReadLevelControlStartUpCurrentLevel() : ModelCommand("read")
+    TargetNavigatorNavigateTarget() : ModelCommand("navigate-target")
     {
-        AddArgument("attr-name", "start-up-current-level");
+        AddArgument("Target", 0, UINT8_MAX, &mRequest.target);
+        AddArgument("Data", &mRequest.data);
         ModelCommand::AddArguments();
     }
 
-    ~ReadLevelControlStartUpCurrentLevel()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000505) command (0x00000000) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeStartUpCurrentLevel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnTargetNavigatorNavigateTargetResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::TargetNavigator::Commands::NavigateTarget::Type mRequest;
 };
 
-class WriteLevelControlStartUpCurrentLevel : public ModelCommand
+/*
+ * Attribute TargetNavigatorList
+ */
+class ReadTargetNavigatorTargetNavigatorList : public ModelCommand
 {
 public:
-    WriteLevelControlStartUpCurrentLevel() : ModelCommand("write")
+    ReadTargetNavigatorTargetNavigatorList() : ModelCommand("read")
     {
-        AddArgument("attr-name", "start-up-current-level");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "target-navigator-list");
         ModelCommand::AddArguments();
     }
 
-    ~WriteLevelControlStartUpCurrentLevel()
+    ~ReadTargetNavigatorTargetNavigatorList()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -14746,34 +34111,34 @@ class WriteLevelControlStartUpCurrentLevel : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0505) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
+        chip::Controller::TargetNavigatorCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeStartUpCurrentLevel(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return cluster.ReadAttributeTargetNavigatorList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<TargetNavigatorTargetNavigatorListListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<TargetNavigatorTargetNavigatorListListAttributeCallback>(
+            OnTargetNavigatorTargetNavigatorListListAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
 };
 
 /*
  * Attribute ClusterRevision
  */
-class ReadLevelControlClusterRevision : public ModelCommand
+class ReadTargetNavigatorClusterRevision : public ModelCommand
 {
 public:
-    ReadLevelControlClusterRevision() : ModelCommand("read")
+    ReadTargetNavigatorClusterRevision() : ModelCommand("read")
     {
         AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
-    ~ReadLevelControlClusterRevision()
+    ~ReadTargetNavigatorClusterRevision()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -14781,9 +34146,9 @@ class ReadLevelControlClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0008) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0505) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LevelControlCluster cluster;
+        chip::Controller::TargetNavigatorCluster cluster;
         cluster.Associate(device, endpointId);
         return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
@@ -14795,182 +34160,170 @@ class ReadLevelControlClusterRevision : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster LowPower                                                    | 0x0508 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * Sleep                                                             |   0x00 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Command Sleep
- */
-class LowPowerSleep : public ModelCommand
-{
-public:
-    LowPowerSleep() : ModelCommand("sleep") { ModelCommand::AddArguments(); }
-
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
-    {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000508) command (0x00000000) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
-    }
-
-private:
-    chip::app::Clusters::LowPower::Commands::Sleep::Type mRequest;
-};
-
-/*
- * Attribute ClusterRevision
- */
-class ReadLowPowerClusterRevision : public ModelCommand
+class ReportTargetNavigatorClusterRevision : public ModelCommand
 {
 public:
-    ReadLowPowerClusterRevision() : ModelCommand("read")
+    ReportTargetNavigatorClusterRevision() : ModelCommand("report")
     {
         AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadLowPowerClusterRevision()
+    ~ReportTargetNavigatorClusterRevision()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0508) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0505) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::LowPowerCluster cluster;
+        chip::Controller::TargetNavigatorCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*----------------------------------------------------------------------------*\
-| Cluster MediaInput                                                  | 0x0507 |
+| Cluster TemperatureMeasurement                                      | 0x0402 |
 |------------------------------------------------------------------------------|
 | Commands:                                                           |        |
-| * HideInputStatus                                                   |   0x02 |
-| * RenameInput                                                       |   0x03 |
-| * SelectInput                                                       |   0x00 |
-| * ShowInputStatus                                                   |   0x01 |
 |------------------------------------------------------------------------------|
 | Attributes:                                                         |        |
-| * MediaInputList                                                    | 0x0000 |
-| * CurrentMediaInput                                                 | 0x0001 |
+| * MeasuredValue                                                     | 0x0000 |
+| * MinMeasuredValue                                                  | 0x0001 |
+| * MaxMeasuredValue                                                  | 0x0002 |
+| * Tolerance                                                         | 0x0003 |
 | * ClusterRevision                                                   | 0xFFFD |
 \*----------------------------------------------------------------------------*/
 
 /*
- * Command HideInputStatus
+ * Attribute MeasuredValue
  */
-class MediaInputHideInputStatus : public ModelCommand
+class ReadTemperatureMeasurementMeasuredValue : public ModelCommand
 {
 public:
-    MediaInputHideInputStatus() : ModelCommand("hide-input-status") { ModelCommand::AddArguments(); }
-
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    ReadTemperatureMeasurementMeasuredValue() : ModelCommand("read")
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000507) command (0x00000002) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        AddArgument("attr-name", "measured-value");
+        ModelCommand::AddArguments();
     }
 
-private:
-    chip::app::Clusters::MediaInput::Commands::HideInputStatus::Type mRequest;
-};
-
-/*
- * Command RenameInput
- */
-class MediaInputRenameInput : public ModelCommand
-{
-public:
-    MediaInputRenameInput() : ModelCommand("rename-input")
+    ~ReadTemperatureMeasurementMeasuredValue()
     {
-        AddArgument("Index", 0, UINT8_MAX, &mRequest.index);
-        AddArgument("Name", &mRequest.name);
-        ModelCommand::AddArguments();
+        delete onSuccessCallback;
+        delete onFailureCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000507) command (0x00000003) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0402) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::TemperatureMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::MediaInput::Commands::RenameInput::Type mRequest;
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command SelectInput
- */
-class MediaInputSelectInput : public ModelCommand
+class ReportTemperatureMeasurementMeasuredValue : public ModelCommand
 {
 public:
-    MediaInputSelectInput() : ModelCommand("select-input")
+    ReportTemperatureMeasurementMeasuredValue() : ModelCommand("report")
     {
-        AddArgument("Index", 0, UINT8_MAX, &mRequest.index);
+        AddArgument("attr-name", "measured-value");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportTemperatureMeasurementMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000507) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0402) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
-    }
+        chip::Controller::TemperatureMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
 
-private:
-    chip::app::Clusters::MediaInput::Commands::SelectInput::Type mRequest;
-};
+        ReturnErrorOnFailure(cluster.ReportAttributeMeasuredValue(onReportCallback->Cancel()));
 
-/*
- * Command ShowInputStatus
- */
-class MediaInputShowInputStatus : public ModelCommand
-{
-public:
-    MediaInputShowInputStatus() : ModelCommand("show-input-status") { ModelCommand::AddArguments(); }
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMeasuredValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000507) command (0x00000001) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::MediaInput::Commands::ShowInputStatus::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute MediaInputList
+ * Attribute MinMeasuredValue
  */
-class ReadMediaInputMediaInputList : public ModelCommand
+class ReadTemperatureMeasurementMinMeasuredValue : public ModelCommand
 {
 public:
-    ReadMediaInputMediaInputList() : ModelCommand("read")
+    ReadTemperatureMeasurementMinMeasuredValue() : ModelCommand("read")
     {
-        AddArgument("attr-name", "media-input-list");
+        AddArgument("attr-name", "min-measured-value");
         ModelCommand::AddArguments();
     }
 
-    ~ReadMediaInputMediaInputList()
+    ~ReadTemperatureMeasurementMinMeasuredValue()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -14978,68 +34331,85 @@ class ReadMediaInputMediaInputList : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0507) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0402) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::MediaInputCluster cluster;
+        chip::Controller::TemperatureMeasurementCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMediaInputList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeMinMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<MediaInputMediaInputListListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<MediaInputMediaInputListListAttributeCallback>(OnMediaInputMediaInputListListAttributeResponse,
-                                                                                    this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute CurrentMediaInput
- */
-class ReadMediaInputCurrentMediaInput : public ModelCommand
+class ReportTemperatureMeasurementMinMeasuredValue : public ModelCommand
 {
 public:
-    ReadMediaInputCurrentMediaInput() : ModelCommand("read")
+    ReportTemperatureMeasurementMinMeasuredValue() : ModelCommand("report")
     {
-        AddArgument("attr-name", "current-media-input");
+        AddArgument("attr-name", "min-measured-value");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadMediaInputCurrentMediaInput()
+    ~ReportTemperatureMeasurementMinMeasuredValue()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0507) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0402) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::MediaInputCluster cluster;
+        chip::Controller::TemperatureMeasurementCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentMediaInput(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMinMeasuredValue(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMinMeasuredValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute MaxMeasuredValue
  */
-class ReadMediaInputClusterRevision : public ModelCommand
+class ReadTemperatureMeasurementMaxMeasuredValue : public ModelCommand
 {
 public:
-    ReadMediaInputClusterRevision() : ModelCommand("read")
+    ReadTemperatureMeasurementMaxMeasuredValue() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "max-measured-value");
         ModelCommand::AddArguments();
     }
 
-    ~ReadMediaInputClusterRevision()
+    ~ReadTemperatureMeasurementMaxMeasuredValue()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -15047,565 +34417,568 @@ class ReadMediaInputClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0507) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0402) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::MediaInputCluster cluster;
+        chip::Controller::TemperatureMeasurementCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeMaxMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster MediaPlayback                                               | 0x0506 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * MediaFastForward                                                  |   0x07 |
-| * MediaNext                                                         |   0x05 |
-| * MediaPause                                                        |   0x01 |
-| * MediaPlay                                                         |   0x00 |
-| * MediaPrevious                                                     |   0x04 |
-| * MediaRewind                                                       |   0x06 |
-| * MediaSeek                                                         |   0x0A |
-| * MediaSkipBackward                                                 |   0x09 |
-| * MediaSkipForward                                                  |   0x08 |
-| * MediaStartOver                                                    |   0x03 |
-| * MediaStop                                                         |   0x02 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * PlaybackState                                                     | 0x0000 |
-| * StartTime                                                         | 0x0001 |
-| * Duration                                                          | 0x0002 |
-| * PositionUpdatedAt                                                 | 0x0003 |
-| * Position                                                          | 0x0004 |
-| * PlaybackSpeed                                                     | 0x0005 |
-| * SeekRangeEnd                                                      | 0x0006 |
-| * SeekRangeStart                                                    | 0x0007 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Command MediaFastForward
- */
-class MediaPlaybackMediaFastForward : public ModelCommand
+class ReportTemperatureMeasurementMaxMeasuredValue : public ModelCommand
 {
 public:
-    MediaPlaybackMediaFastForward() : ModelCommand("media-fast-forward") { ModelCommand::AddArguments(); }
-
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    ReportTemperatureMeasurementMaxMeasuredValue() : ModelCommand("report")
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000007) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaFastForwardResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        AddArgument("attr-name", "max-measured-value");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
     }
 
-private:
-    chip::app::Clusters::MediaPlayback::Commands::MediaFastForward::Type mRequest;
-};
-
-/*
- * Command MediaNext
- */
-class MediaPlaybackMediaNext : public ModelCommand
-{
-public:
-    MediaPlaybackMediaNext() : ModelCommand("media-next") { ModelCommand::AddArguments(); }
+    ~ReportTemperatureMeasurementMaxMeasuredValue()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000005) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0402) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaNextResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
-    }
+        chip::Controller::TemperatureMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
 
-private:
-    chip::app::Clusters::MediaPlayback::Commands::MediaNext::Type mRequest;
-};
+        ReturnErrorOnFailure(cluster.ReportAttributeMaxMeasuredValue(onReportCallback->Cancel()));
 
-/*
- * Command MediaPause
- */
-class MediaPlaybackMediaPause : public ModelCommand
-{
-public:
-    MediaPlaybackMediaPause() : ModelCommand("media-pause") { ModelCommand::AddArguments(); }
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMaxMeasuredValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000001) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaPauseResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::MediaPlayback::Commands::MediaPause::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command MediaPlay
+ * Attribute Tolerance
  */
-class MediaPlaybackMediaPlay : public ModelCommand
+class ReadTemperatureMeasurementTolerance : public ModelCommand
 {
 public:
-    MediaPlaybackMediaPlay() : ModelCommand("media-play") { ModelCommand::AddArguments(); }
-
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    ReadTemperatureMeasurementTolerance() : ModelCommand("read")
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000000) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaPlayResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        AddArgument("attr-name", "tolerance");
+        ModelCommand::AddArguments();
     }
 
-private:
-    chip::app::Clusters::MediaPlayback::Commands::MediaPlay::Type mRequest;
-};
-
-/*
- * Command MediaPrevious
- */
-class MediaPlaybackMediaPrevious : public ModelCommand
-{
-public:
-    MediaPlaybackMediaPrevious() : ModelCommand("media-previous") { ModelCommand::AddArguments(); }
+    ~ReadTemperatureMeasurementTolerance()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000004) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0402) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaPreviousResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::TemperatureMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeTolerance(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::MediaPlayback::Commands::MediaPrevious::Type mRequest;
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command MediaRewind
- */
-class MediaPlaybackMediaRewind : public ModelCommand
+class ReportTemperatureMeasurementTolerance : public ModelCommand
 {
 public:
-    MediaPlaybackMediaRewind() : ModelCommand("media-rewind") { ModelCommand::AddArguments(); }
+    ReportTemperatureMeasurementTolerance() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "tolerance");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportTemperatureMeasurementTolerance()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000006) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0402) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaRewindResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::TemperatureMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTolerance(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTolerance(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::MediaPlayback::Commands::MediaRewind::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command MediaSeek
+ * Attribute ClusterRevision
  */
-class MediaPlaybackMediaSeek : public ModelCommand
+class ReadTemperatureMeasurementClusterRevision : public ModelCommand
 {
 public:
-    MediaPlaybackMediaSeek() : ModelCommand("media-seek")
+    ReadTemperatureMeasurementClusterRevision() : ModelCommand("read")
     {
-        AddArgument("Position", 0, UINT64_MAX, &mRequest.position);
+        AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
+    ~ReadTemperatureMeasurementClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x0000000A) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0402) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaSeekResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        chip::Controller::TemperatureMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::MediaPlayback::Commands::MediaSeek::Type mRequest;
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command MediaSkipBackward
- */
-class MediaPlaybackMediaSkipBackward : public ModelCommand
+class ReportTemperatureMeasurementClusterRevision : public ModelCommand
 {
 public:
-    MediaPlaybackMediaSkipBackward() : ModelCommand("media-skip-backward")
+    ReportTemperatureMeasurementClusterRevision() : ModelCommand("report")
     {
-        AddArgument("DeltaPositionMilliseconds", 0, UINT64_MAX, &mRequest.deltaPositionMilliseconds);
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportTemperatureMeasurementClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000009) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0402) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaSkipBackwardResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::TemperatureMeasurementCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::MediaPlayback::Commands::MediaSkipBackward::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
+/*----------------------------------------------------------------------------*\
+| Cluster TestCluster                                                 | 0x050F |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * Test                                                              |   0x00 |
+| * TestAddArguments                                                  |   0x04 |
+| * TestEnumsRequest                                                  |   0x0E |
+| * TestListInt8UArgumentRequest                                      |   0x0A |
+| * TestListInt8UReverseRequest                                       |   0x0D |
+| * TestListStructArgumentRequest                                     |   0x09 |
+| * TestNotHandled                                                    |   0x01 |
+| * TestNullableOptionalRequest                                       |   0x0F |
+| * TestSpecific                                                      |   0x02 |
+| * TestStructArgumentRequest                                         |   0x07 |
+| * TestUnknownCommand                                                |   0x03 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * Boolean                                                           | 0x0000 |
+| * Bitmap8                                                           | 0x0001 |
+| * Bitmap16                                                          | 0x0002 |
+| * Bitmap32                                                          | 0x0003 |
+| * Bitmap64                                                          | 0x0004 |
+| * Int8u                                                             | 0x0005 |
+| * Int16u                                                            | 0x0006 |
+| * Int32u                                                            | 0x0008 |
+| * Int64u                                                            | 0x000C |
+| * Int8s                                                             | 0x000D |
+| * Int16s                                                            | 0x000E |
+| * Int32s                                                            | 0x0010 |
+| * Int64s                                                            | 0x0014 |
+| * Enum8                                                             | 0x0015 |
+| * Enum16                                                            | 0x0016 |
+| * OctetString                                                       | 0x0019 |
+| * ListInt8u                                                         | 0x001A |
+| * ListOctetString                                                   | 0x001B |
+| * ListStructOctetString                                             | 0x001C |
+| * LongOctetString                                                   | 0x001D |
+| * CharString                                                        | 0x001E |
+| * LongCharString                                                    | 0x001F |
+| * EpochUs                                                           | 0x0020 |
+| * EpochS                                                            | 0x0021 |
+| * VendorId                                                          | 0x0022 |
+| * ListNullablesAndOptionalsStruct                                   | 0x0023 |
+| * Unsupported                                                       | 0x00FF |
+| * NullableBoolean                                                   | 0x8000 |
+| * NullableBitmap8                                                   | 0x8001 |
+| * NullableBitmap16                                                  | 0x8002 |
+| * NullableBitmap32                                                  | 0x8003 |
+| * NullableBitmap64                                                  | 0x8004 |
+| * NullableInt8u                                                     | 0x8005 |
+| * NullableInt16u                                                    | 0x8006 |
+| * NullableInt32u                                                    | 0x8008 |
+| * NullableInt64u                                                    | 0x800C |
+| * NullableInt8s                                                     | 0x800D |
+| * NullableInt16s                                                    | 0x800E |
+| * NullableInt32s                                                    | 0x8010 |
+| * NullableInt64s                                                    | 0x8014 |
+| * NullableEnum8                                                     | 0x8015 |
+| * NullableEnum16                                                    | 0x8016 |
+| * NullableOctetString                                               | 0x8019 |
+| * NullableCharString                                                | 0x801E |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
 /*
- * Command MediaSkipForward
+ * Command Test
  */
-class MediaPlaybackMediaSkipForward : public ModelCommand
+class TestClusterTest : public ModelCommand
 {
 public:
-    MediaPlaybackMediaSkipForward() : ModelCommand("media-skip-forward")
-    {
-        AddArgument("DeltaPositionMilliseconds", 0, UINT64_MAX, &mRequest.deltaPositionMilliseconds);
-        ModelCommand::AddArguments();
-    }
+    TestClusterTest() : ModelCommand("test") { ModelCommand::AddArguments(); }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000008) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x00000000) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaSkipForwardResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::MediaPlayback::Commands::MediaSkipForward::Type mRequest;
+    chip::app::Clusters::TestCluster::Commands::Test::Type mRequest;
 };
 
 /*
- * Command MediaStartOver
+ * Command TestAddArguments
  */
-class MediaPlaybackMediaStartOver : public ModelCommand
+class TestClusterTestAddArguments : public ModelCommand
 {
 public:
-    MediaPlaybackMediaStartOver() : ModelCommand("media-start-over") { ModelCommand::AddArguments(); }
+    TestClusterTestAddArguments() : ModelCommand("test-add-arguments")
+    {
+        AddArgument("Arg1", 0, UINT8_MAX, &mRequest.arg1);
+        AddArgument("Arg2", 0, UINT8_MAX, &mRequest.arg2);
+        ModelCommand::AddArguments();
+    }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000003) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x00000004) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaStartOverResponseSuccess, OnDefaultFailure,
+        return chip::Controller::InvokeCommand(device, this, OnTestClusterTestAddArgumentsResponseSuccess, OnDefaultFailure,
                                                endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::MediaPlayback::Commands::MediaStartOver::Type mRequest;
+    chip::app::Clusters::TestCluster::Commands::TestAddArguments::Type mRequest;
 };
 
 /*
- * Command MediaStop
+ * Command TestEnumsRequest
  */
-class MediaPlaybackMediaStop : public ModelCommand
+class TestClusterTestEnumsRequest : public ModelCommand
 {
 public:
-    MediaPlaybackMediaStop() : ModelCommand("media-stop") { ModelCommand::AddArguments(); }
+    TestClusterTestEnumsRequest() : ModelCommand("test-enums-request")
+    {
+        AddArgument("Arg1", 0, UINT16_MAX, &mRequest.arg1);
+        AddArgument("Arg2", 0, UINT8_MAX, reinterpret_cast<std::underlying_type_t<decltype(mRequest.arg2)> *>(&mRequest.arg2));
+        ModelCommand::AddArguments();
+    }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000506) command (0x00000002) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x0000000E) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnMediaPlaybackMediaStopResponseSuccess, OnDefaultFailure, endpointId,
+        return chip::Controller::InvokeCommand(device, this, OnTestClusterTestEnumsResponseSuccess, OnDefaultFailure, endpointId,
                                                mRequest);
     }
 
 private:
-    chip::app::Clusters::MediaPlayback::Commands::MediaStop::Type mRequest;
+    chip::app::Clusters::TestCluster::Commands::TestEnumsRequest::Type mRequest;
 };
 
 /*
- * Attribute PlaybackState
+ * Command TestListInt8UArgumentRequest
  */
-class ReadMediaPlaybackPlaybackState : public ModelCommand
+class TestClusterTestListInt8UArgumentRequest : public ModelCommand
 {
 public:
-    ReadMediaPlaybackPlaybackState() : ModelCommand("read")
+    TestClusterTestListInt8UArgumentRequest() : ModelCommand("test-list-int8uargument-request")
     {
-        AddArgument("attr-name", "playback-state");
+        // arg1 Array parsing is not supported yet
         ModelCommand::AddArguments();
     }
 
-    ~ReadMediaPlaybackPlaybackState()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x0000000A) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::MediaPlaybackCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePlaybackState(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnTestClusterBooleanResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::TestCluster::Commands::TestListInt8UArgumentRequest::Type mRequest;
 };
 
 /*
- * Attribute StartTime
+ * Command TestListInt8UReverseRequest
  */
-class ReadMediaPlaybackStartTime : public ModelCommand
+class TestClusterTestListInt8UReverseRequest : public ModelCommand
 {
 public:
-    ReadMediaPlaybackStartTime() : ModelCommand("read")
+    TestClusterTestListInt8UReverseRequest() : ModelCommand("test-list-int8ureverse-request")
     {
-        AddArgument("attr-name", "start-time");
+        // arg1 Array parsing is not supported yet
         ModelCommand::AddArguments();
     }
 
-    ~ReadMediaPlaybackStartTime()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x0000000D) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::MediaPlaybackCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeStartTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnTestClusterTestListInt8UReverseResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::TestCluster::Commands::TestListInt8UReverseRequest::Type mRequest;
 };
 
 /*
- * Attribute Duration
+ * Command TestListStructArgumentRequest
  */
-class ReadMediaPlaybackDuration : public ModelCommand
+class TestClusterTestListStructArgumentRequest : public ModelCommand
 {
 public:
-    ReadMediaPlaybackDuration() : ModelCommand("read")
+    TestClusterTestListStructArgumentRequest() : ModelCommand("test-list-struct-argument-request")
     {
-        AddArgument("attr-name", "duration");
+        // arg1 Array parsing is not supported yet
         ModelCommand::AddArguments();
     }
 
-    ~ReadMediaPlaybackDuration()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x00000009) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::MediaPlaybackCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeDuration(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnTestClusterBooleanResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::TestCluster::Commands::TestListStructArgumentRequest::Type mRequest;
 };
 
 /*
- * Attribute PositionUpdatedAt
+ * Command TestNotHandled
  */
-class ReadMediaPlaybackPositionUpdatedAt : public ModelCommand
+class TestClusterTestNotHandled : public ModelCommand
 {
 public:
-    ReadMediaPlaybackPositionUpdatedAt() : ModelCommand("read")
-    {
-        AddArgument("attr-name", "position-updated-at");
-        ModelCommand::AddArguments();
-    }
-
-    ~ReadMediaPlaybackPositionUpdatedAt()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
+    TestClusterTestNotHandled() : ModelCommand("test-not-handled") { ModelCommand::AddArguments(); }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x00000001) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::MediaPlaybackCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePositionUpdatedAt(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::TestCluster::Commands::TestNotHandled::Type mRequest;
 };
 
 /*
- * Attribute Position
+ * Command TestNullableOptionalRequest
  */
-class ReadMediaPlaybackPosition : public ModelCommand
+class TestClusterTestNullableOptionalRequest : public ModelCommand
 {
 public:
-    ReadMediaPlaybackPosition() : ModelCommand("read")
+    TestClusterTestNullableOptionalRequest() : ModelCommand("test-nullable-optional-request")
     {
-        AddArgument("attr-name", "position");
+        AddArgument("Arg1", 0, UINT8_MAX, &mRequest.arg1);
         ModelCommand::AddArguments();
     }
 
-    ~ReadMediaPlaybackPosition()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x0000000F) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::MediaPlaybackCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePosition(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnTestClusterTestNullableOptionalResponseSuccess, OnDefaultFailure,
+                                               endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::TestCluster::Commands::TestNullableOptionalRequest::Type mRequest;
 };
 
 /*
- * Attribute PlaybackSpeed
+ * Command TestSpecific
  */
-class ReadMediaPlaybackPlaybackSpeed : public ModelCommand
+class TestClusterTestSpecific : public ModelCommand
 {
 public:
-    ReadMediaPlaybackPlaybackSpeed() : ModelCommand("read")
-    {
-        AddArgument("attr-name", "playback-speed");
-        ModelCommand::AddArguments();
-    }
-
-    ~ReadMediaPlaybackPlaybackSpeed()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
+    TestClusterTestSpecific() : ModelCommand("test-specific") { ModelCommand::AddArguments(); }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x00000002) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::MediaPlaybackCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePlaybackSpeed(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnTestClusterTestSpecificResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::TestCluster::Commands::TestSpecific::Type mRequest;
 };
 
 /*
- * Attribute SeekRangeEnd
+ * Command TestStructArgumentRequest
  */
-class ReadMediaPlaybackSeekRangeEnd : public ModelCommand
+class TestClusterTestStructArgumentRequest : public ModelCommand
 {
 public:
-    ReadMediaPlaybackSeekRangeEnd() : ModelCommand("read")
+    TestClusterTestStructArgumentRequest() : ModelCommand("test-struct-argument-request")
     {
-        AddArgument("attr-name", "seek-range-end");
+        // arg1 Struct parsing is not supported yet
         ModelCommand::AddArguments();
     }
 
-    ~ReadMediaPlaybackSeekRangeEnd()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x00000007) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::MediaPlaybackCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeSeekRangeEnd(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnTestClusterBooleanResponseSuccess, OnDefaultFailure, endpointId,
+                                               mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::TestCluster::Commands::TestStructArgumentRequest::Type mRequest;
 };
 
 /*
- * Attribute SeekRangeStart
+ * Command TestUnknownCommand
  */
-class ReadMediaPlaybackSeekRangeStart : public ModelCommand
+class TestClusterTestUnknownCommand : public ModelCommand
 {
 public:
-    ReadMediaPlaybackSeekRangeStart() : ModelCommand("read")
-    {
-        AddArgument("attr-name", "seek-range-start");
-        ModelCommand::AddArguments();
-    }
-
-    ~ReadMediaPlaybackSeekRangeStart()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
+    TestClusterTestUnknownCommand() : ModelCommand("test-unknown-command") { ModelCommand::AddArguments(); }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x00000003) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::MediaPlaybackCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeSeekRangeStart(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::TestCluster::Commands::TestUnknownCommand::Type mRequest;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute Boolean
  */
-class ReadMediaPlaybackClusterRevision : public ModelCommand
+class ReadTestClusterBoolean : public ModelCommand
 {
 public:
-    ReadMediaPlaybackClusterRevision() : ModelCommand("read")
+    ReadTestClusterBoolean() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "boolean");
         ModelCommand::AddArguments();
     }
 
-    ~ReadMediaPlaybackClusterRevision()
+    ~ReadTestClusterBoolean()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -15613,71 +34986,31 @@ class ReadMediaPlaybackClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0506) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::MediaPlaybackCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeBoolean(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster ModeSelect                                                  | 0x0050 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * ChangeToMode                                                      |   0x00 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * CurrentMode                                                       | 0x0000 |
-| * SupportedModes                                                    | 0x0001 |
-| * OnMode                                                            | 0x0002 |
-| * StartUpMode                                                       | 0x0003 |
-| * Description                                                       | 0x0004 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Command ChangeToMode
- */
-class ModeSelectChangeToMode : public ModelCommand
-{
-public:
-    ModeSelectChangeToMode() : ModelCommand("change-to-mode")
-    {
-        AddArgument("NewMode", 0, UINT8_MAX, &mRequest.newMode);
-        ModelCommand::AddArguments();
-    }
-
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
-    {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000050) command (0x00000000) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
-    }
-
-private:
-    chip::app::Clusters::ModeSelect::Commands::ChangeToMode::Type mRequest;
-};
-
-/*
- * Attribute CurrentMode
- */
-class ReadModeSelectCurrentMode : public ModelCommand
+class WriteTestClusterBoolean : public ModelCommand
 {
 public:
-    ReadModeSelectCurrentMode() : ModelCommand("read")
+    WriteTestClusterBoolean() : ModelCommand("write")
     {
-        AddArgument("attr-name", "current-mode");
+        AddArgument("attr-name", "boolean");
+        AddArgument("attr-value", 0, 1, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadModeSelectCurrentMode()
+    ~WriteTestClusterBoolean()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -15685,33 +35018,34 @@ class ReadModeSelectCurrentMode : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ModeSelectCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeBoolean(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    bool mValue;
 };
 
-class ReportModeSelectCurrentMode : public ModelCommand
+class ReportTestClusterBoolean : public ModelCommand
 {
 public:
-    ReportModeSelectCurrentMode() : ModelCommand("report")
+    ReportTestClusterBoolean() : ModelCommand("report")
     {
-        AddArgument("attr-name", "current-mode");
+        AddArgument("attr-name", "boolean");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportModeSelectCurrentMode()
+    ~ReportTestClusterBoolean()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -15721,15 +35055,15 @@ class ReportModeSelectCurrentMode : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ModeSelectCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeCurrentMode(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeBoolean(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeCurrentMode(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeBoolean(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -15744,26 +35078,26 @@ class ReportModeSelectCurrentMode : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeReport, this);
     uint16_t mMinInterval;
     uint16_t mMaxInterval;
     bool mWait;
 };
 
 /*
- * Attribute SupportedModes
+ * Attribute Bitmap8
  */
-class ReadModeSelectSupportedModes : public ModelCommand
+class ReadTestClusterBitmap8 : public ModelCommand
 {
 public:
-    ReadModeSelectSupportedModes() : ModelCommand("read")
+    ReadTestClusterBitmap8() : ModelCommand("read")
     {
-        AddArgument("attr-name", "supported-modes");
+        AddArgument("attr-name", "bitmap8");
         ModelCommand::AddArguments();
     }
 
-    ~ReadModeSelectSupportedModes()
+    ~ReadTestClusterBitmap8()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -15771,34 +35105,31 @@ class ReadModeSelectSupportedModes : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ModeSelectCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeSupportedModes(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeBitmap8(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<ModeSelectSupportedModesListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<ModeSelectSupportedModesListAttributeCallback>(OnModeSelectSupportedModesListAttributeResponse,
-                                                                                    this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute OnMode
- */
-class ReadModeSelectOnMode : public ModelCommand
+class WriteTestClusterBitmap8 : public ModelCommand
 {
 public:
-    ReadModeSelectOnMode() : ModelCommand("read")
+    WriteTestClusterBitmap8() : ModelCommand("write")
     {
-        AddArgument("attr-name", "on-mode");
+        AddArgument("attr-name", "bitmap8");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadModeSelectOnMode()
+    ~WriteTestClusterBitmap8()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -15806,66 +35137,86 @@ class ReadModeSelectOnMode : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ModeSelectCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOnMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeBitmap8(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
 };
 
-class WriteModeSelectOnMode : public ModelCommand
+class ReportTestClusterBitmap8 : public ModelCommand
 {
 public:
-    WriteModeSelectOnMode() : ModelCommand("write")
+    ReportTestClusterBitmap8() : ModelCommand("report")
     {
-        AddArgument("attr-name", "on-mode");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "bitmap8");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteModeSelectOnMode()
+    ~ReportTestClusterBitmap8()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ModeSelectCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeOnMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeBitmap8(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeBitmap8(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute StartUpMode
+ * Attribute Bitmap16
  */
-class ReadModeSelectStartUpMode : public ModelCommand
+class ReadTestClusterBitmap16 : public ModelCommand
 {
 public:
-    ReadModeSelectStartUpMode() : ModelCommand("read")
+    ReadTestClusterBitmap16() : ModelCommand("read")
     {
-        AddArgument("attr-name", "start-up-mode");
+        AddArgument("attr-name", "bitmap16");
         ModelCommand::AddArguments();
     }
 
-    ~ReadModeSelectStartUpMode()
+    ~ReadTestClusterBitmap16()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -15873,33 +35224,31 @@ class ReadModeSelectStartUpMode : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ModeSelectCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeStartUpMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeBitmap16(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute Description
- */
-class ReadModeSelectDescription : public ModelCommand
+class WriteTestClusterBitmap16 : public ModelCommand
 {
 public:
-    ReadModeSelectDescription() : ModelCommand("read")
+    WriteTestClusterBitmap16() : ModelCommand("write")
     {
-        AddArgument("attr-name", "description");
+        AddArgument("attr-name", "bitmap16");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadModeSelectDescription()
+    ~WriteTestClusterBitmap16()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -15907,295 +35256,324 @@ class ReadModeSelectDescription : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ModeSelectCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeDescription(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeBitmap16(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadModeSelectClusterRevision : public ModelCommand
+class ReportTestClusterBitmap16 : public ModelCommand
 {
 public:
-    ReadModeSelectClusterRevision() : ModelCommand("read")
+    ReportTestClusterBitmap16() : ModelCommand("report")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "bitmap16");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadModeSelectClusterRevision()
+    ~ReportTestClusterBitmap16()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0050) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ModeSelectCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeBitmap16(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeBitmap16(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster NetworkCommissioning                                        | 0x0031 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * AddThreadNetwork                                                  |   0x06 |
-| * AddWiFiNetwork                                                    |   0x02 |
-| * DisableNetwork                                                    |   0x0E |
-| * EnableNetwork                                                     |   0x0C |
-| * RemoveNetwork                                                     |   0x0A |
-| * ScanNetworks                                                      |   0x00 |
-| * UpdateThreadNetwork                                               |   0x08 |
-| * UpdateWiFiNetwork                                                 |   0x04 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * FeatureMap                                                        | 0xFFFC |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
 /*
- * Command AddThreadNetwork
+ * Attribute Bitmap32
  */
-class NetworkCommissioningAddThreadNetwork : public ModelCommand
+class ReadTestClusterBitmap32 : public ModelCommand
 {
 public:
-    NetworkCommissioningAddThreadNetwork() : ModelCommand("add-thread-network")
+    ReadTestClusterBitmap32() : ModelCommand("read")
     {
-        AddArgument("OperationalDataset", &mRequest.operationalDataset);
-        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
-        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
+        AddArgument("attr-name", "bitmap32");
         ModelCommand::AddArguments();
     }
 
+    ~ReadTestClusterBitmap32()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000031) command (0x00000006) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnNetworkCommissioningAddThreadNetworkResponseSuccess,
-                                               OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeBitmap32(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::NetworkCommissioning::Commands::AddThreadNetwork::Type mRequest;
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command AddWiFiNetwork
- */
-class NetworkCommissioningAddWiFiNetwork : public ModelCommand
+class WriteTestClusterBitmap32 : public ModelCommand
 {
 public:
-    NetworkCommissioningAddWiFiNetwork() : ModelCommand("add-wi-fi-network")
+    WriteTestClusterBitmap32() : ModelCommand("write")
     {
-        AddArgument("Ssid", &mRequest.ssid);
-        AddArgument("Credentials", &mRequest.credentials);
-        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
-        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
+        AddArgument("attr-name", "bitmap32");
+        AddArgument("attr-value", 0, UINT32_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
+    ~WriteTestClusterBitmap32()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000031) command (0x00000002) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnNetworkCommissioningAddWiFiNetworkResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeBitmap32(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::app::Clusters::NetworkCommissioning::Commands::AddWiFiNetwork::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint32_t mValue;
 };
 
-/*
- * Command DisableNetwork
- */
-class NetworkCommissioningDisableNetwork : public ModelCommand
+class ReportTestClusterBitmap32 : public ModelCommand
 {
 public:
-    NetworkCommissioningDisableNetwork() : ModelCommand("disable-network")
+    ReportTestClusterBitmap32() : ModelCommand("report")
     {
-        AddArgument("NetworkID", &mRequest.networkID);
-        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
-        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
+        AddArgument("attr-name", "bitmap32");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportTestClusterBitmap32()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000031) command (0x0000000E) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnNetworkCommissioningDisableNetworkResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
-    }
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
 
-private:
-    chip::app::Clusters::NetworkCommissioning::Commands::DisableNetwork::Type mRequest;
-};
+        ReturnErrorOnFailure(cluster.ReportAttributeBitmap32(onReportCallback->Cancel()));
 
-/*
- * Command EnableNetwork
- */
-class NetworkCommissioningEnableNetwork : public ModelCommand
-{
-public:
-    NetworkCommissioningEnableNetwork() : ModelCommand("enable-network")
-    {
-        AddArgument("NetworkID", &mRequest.networkID);
-        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
-        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
-        ModelCommand::AddArguments();
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeBitmap32(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000031) command (0x0000000C) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnNetworkCommissioningEnableNetworkResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::NetworkCommissioning::Commands::EnableNetwork::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command RemoveNetwork
+ * Attribute Bitmap64
  */
-class NetworkCommissioningRemoveNetwork : public ModelCommand
+class ReadTestClusterBitmap64 : public ModelCommand
 {
 public:
-    NetworkCommissioningRemoveNetwork() : ModelCommand("remove-network")
+    ReadTestClusterBitmap64() : ModelCommand("read")
     {
-        AddArgument("NetworkID", &mRequest.networkID);
-        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
-        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
+        AddArgument("attr-name", "bitmap64");
         ModelCommand::AddArguments();
     }
 
+    ~ReadTestClusterBitmap64()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000031) command (0x0000000A) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnNetworkCommissioningRemoveNetworkResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeBitmap64(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::NetworkCommissioning::Commands::RemoveNetwork::Type mRequest;
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command ScanNetworks
- */
-class NetworkCommissioningScanNetworks : public ModelCommand
+class WriteTestClusterBitmap64 : public ModelCommand
 {
 public:
-    NetworkCommissioningScanNetworks() : ModelCommand("scan-networks")
+    WriteTestClusterBitmap64() : ModelCommand("write")
     {
-        AddArgument("Ssid", &mRequest.ssid);
-        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
-        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
+        AddArgument("attr-name", "bitmap64");
+        AddArgument("attr-value", 0, UINT64_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
+    ~WriteTestClusterBitmap64()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000031) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnNetworkCommissioningScanNetworksResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeBitmap64(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::app::Clusters::NetworkCommissioning::Commands::ScanNetworks::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint64_t mValue;
 };
 
-/*
- * Command UpdateThreadNetwork
- */
-class NetworkCommissioningUpdateThreadNetwork : public ModelCommand
+class ReportTestClusterBitmap64 : public ModelCommand
 {
 public:
-    NetworkCommissioningUpdateThreadNetwork() : ModelCommand("update-thread-network")
+    ReportTestClusterBitmap64() : ModelCommand("report")
     {
-        AddArgument("OperationalDataset", &mRequest.operationalDataset);
-        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
-        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
+        AddArgument("attr-name", "bitmap64");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportTestClusterBitmap64()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000031) command (0x00000008) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnNetworkCommissioningUpdateThreadNetworkResponseSuccess,
-                                               OnDefaultFailure, endpointId, mRequest);
-    }
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
 
-private:
-    chip::app::Clusters::NetworkCommissioning::Commands::UpdateThreadNetwork::Type mRequest;
-};
+        ReturnErrorOnFailure(cluster.ReportAttributeBitmap64(onReportCallback->Cancel()));
 
-/*
- * Command UpdateWiFiNetwork
- */
-class NetworkCommissioningUpdateWiFiNetwork : public ModelCommand
-{
-public:
-    NetworkCommissioningUpdateWiFiNetwork() : ModelCommand("update-wi-fi-network")
-    {
-        AddArgument("Ssid", &mRequest.ssid);
-        AddArgument("Credentials", &mRequest.credentials);
-        AddArgument("Breadcrumb", 0, UINT64_MAX, &mRequest.breadcrumb);
-        AddArgument("TimeoutMs", 0, UINT32_MAX, &mRequest.timeoutMs);
-        ModelCommand::AddArguments();
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeBitmap64(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000031) command (0x00000004) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnNetworkCommissioningUpdateWiFiNetworkResponseSuccess,
-                                               OnDefaultFailure, endpointId, mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::NetworkCommissioning::Commands::UpdateWiFiNetwork::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute FeatureMap
+ * Attribute Int8u
  */
-class ReadNetworkCommissioningFeatureMap : public ModelCommand
+class ReadTestClusterInt8u : public ModelCommand
 {
 public:
-    ReadNetworkCommissioningFeatureMap() : ModelCommand("read")
+    ReadTestClusterInt8u() : ModelCommand("read")
     {
-        AddArgument("attr-name", "feature-map");
+        AddArgument("attr-name", "int8u");
         ModelCommand::AddArguments();
     }
 
-    ~ReadNetworkCommissioningFeatureMap()
+    ~ReadTestClusterInt8u()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -16203,33 +35581,31 @@ class ReadNetworkCommissioningFeatureMap : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0031) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::NetworkCommissioningCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeFeatureMap(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeInt8u(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadNetworkCommissioningClusterRevision : public ModelCommand
+class WriteTestClusterInt8u : public ModelCommand
 {
 public:
-    ReadNetworkCommissioningClusterRevision() : ModelCommand("read")
+    WriteTestClusterInt8u() : ModelCommand("write")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "int8u");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadNetworkCommissioningClusterRevision()
+    ~WriteTestClusterInt8u()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -16237,125 +35613,118 @@ class ReadNetworkCommissioningClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0031) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::NetworkCommissioningCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeInt8u(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster OtaSoftwareUpdateProvider                                   | 0x0029 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * ApplyUpdateRequest                                                |   0x01 |
-| * NotifyUpdateApplied                                               |   0x02 |
-| * QueryImage                                                        |   0x00 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Command ApplyUpdateRequest
- */
-class OtaSoftwareUpdateProviderApplyUpdateRequest : public ModelCommand
+class ReportTestClusterInt8u : public ModelCommand
 {
 public:
-    OtaSoftwareUpdateProviderApplyUpdateRequest() : ModelCommand("apply-update-request")
+    ReportTestClusterInt8u() : ModelCommand("report")
     {
-        AddArgument("UpdateToken", &mRequest.updateToken);
-        AddArgument("NewVersion", 0, UINT32_MAX, &mRequest.newVersion);
+        AddArgument("attr-name", "int8u");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    ~ReportTestClusterInt8u()
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000029) command (0x00000001) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnOtaSoftwareUpdateProviderApplyUpdateResponseSuccess,
-                                               OnDefaultFailure, endpointId, mRequest);
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
     }
 
-private:
-    chip::app::Clusters::OtaSoftwareUpdateProvider::Commands::ApplyUpdateRequest::Type mRequest;
-};
-
-/*
- * Command NotifyUpdateApplied
- */
-class OtaSoftwareUpdateProviderNotifyUpdateApplied : public ModelCommand
-{
-public:
-    OtaSoftwareUpdateProviderNotifyUpdateApplied() : ModelCommand("notify-update-applied")
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        AddArgument("UpdateToken", &mRequest.updateToken);
-        AddArgument("SoftwareVersion", 0, UINT32_MAX, &mRequest.softwareVersion);
-        ModelCommand::AddArguments();
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeInt8u(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeInt8u(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000029) command (0x00000002) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::OtaSoftwareUpdateProvider::Commands::NotifyUpdateApplied::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command QueryImage
+ * Attribute Int16u
  */
-class OtaSoftwareUpdateProviderQueryImage : public ModelCommand
+class ReadTestClusterInt16u : public ModelCommand
 {
 public:
-    OtaSoftwareUpdateProviderQueryImage() : ModelCommand("query-image")
+    ReadTestClusterInt16u() : ModelCommand("read")
     {
-        AddArgument("VendorId", 0, UINT16_MAX, &mRequest.vendorId);
-        AddArgument("ProductId", 0, UINT16_MAX, &mRequest.productId);
-        AddArgument("SoftwareVersion", 0, UINT32_MAX, &mRequest.softwareVersion);
-        // protocolsSupported Array parsing is not supported yet
-        AddArgument("HardwareVersion", 0, UINT16_MAX, &mRequest.hardwareVersion);
-        AddArgument("Location", &mRequest.location);
-        AddArgument("RequestorCanConsent", 0, 1, &mRequest.requestorCanConsent);
-        AddArgument("MetadataForProvider", &mRequest.metadataForProvider);
+        AddArgument("attr-name", "int16u");
         ModelCommand::AddArguments();
     }
 
+    ~ReadTestClusterInt16u()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000029) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnOtaSoftwareUpdateProviderQueryImageResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeInt16u(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::OtaSoftwareUpdateProvider::Commands::QueryImage::Type mRequest;
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadOtaSoftwareUpdateProviderClusterRevision : public ModelCommand
+class WriteTestClusterInt16u : public ModelCommand
 {
 public:
-    ReadOtaSoftwareUpdateProviderClusterRevision() : ModelCommand("read")
+    WriteTestClusterInt16u() : ModelCommand("write")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "int16u");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadOtaSoftwareUpdateProviderClusterRevision()
+    ~WriteTestClusterInt16u()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -16363,73 +35732,86 @@ class ReadOtaSoftwareUpdateProviderClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0029) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OtaSoftwareUpdateProviderCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeInt16u(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster OtaSoftwareUpdateRequestor                                  | 0x002A |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * AnnounceOtaProvider                                               |   0x00 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * DefaultOtaProvider                                                | 0x0001 |
-| * UpdatePossible                                                    | 0x0002 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Command AnnounceOtaProvider
- */
-class OtaSoftwareUpdateRequestorAnnounceOtaProvider : public ModelCommand
+class ReportTestClusterInt16u : public ModelCommand
 {
 public:
-    OtaSoftwareUpdateRequestorAnnounceOtaProvider() : ModelCommand("announce-ota-provider")
+    ReportTestClusterInt16u() : ModelCommand("report")
     {
-        AddArgument("ProviderLocation", 0, UINT64_MAX, &mRequest.providerLocation);
-        AddArgument("VendorId", 0, UINT16_MAX, &mRequest.vendorId);
-        AddArgument(
-            "AnnouncementReason", 0, UINT8_MAX,
-            reinterpret_cast<std::underlying_type_t<decltype(mRequest.announcementReason)> *>(&mRequest.announcementReason));
-        AddArgument("MetadataForNode", &mRequest.metadataForNode);
+        AddArgument("attr-name", "int16u");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportTestClusterInt16u()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000002A) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeInt16u(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeInt16u(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::OtaSoftwareUpdateRequestor::Commands::AnnounceOtaProvider::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute DefaultOtaProvider
+ * Attribute Int32u
  */
-class ReadOtaSoftwareUpdateRequestorDefaultOtaProvider : public ModelCommand
+class ReadTestClusterInt32u : public ModelCommand
 {
 public:
-    ReadOtaSoftwareUpdateRequestorDefaultOtaProvider() : ModelCommand("read")
+    ReadTestClusterInt32u() : ModelCommand("read")
     {
-        AddArgument("attr-name", "default-ota-provider");
+        AddArgument("attr-name", "int32u");
         ModelCommand::AddArguments();
     }
 
-    ~ReadOtaSoftwareUpdateRequestorDefaultOtaProvider()
+    ~ReadTestClusterInt32u()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -16437,31 +35819,31 @@ class ReadOtaSoftwareUpdateRequestorDefaultOtaProvider : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x002A) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OtaSoftwareUpdateRequestorCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeDefaultOtaProvider(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeInt32u(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteOtaSoftwareUpdateRequestorDefaultOtaProvider : public ModelCommand
+class WriteTestClusterInt32u : public ModelCommand
 {
 public:
-    WriteOtaSoftwareUpdateRequestorDefaultOtaProvider() : ModelCommand("write")
+    WriteTestClusterInt32u() : ModelCommand("write")
     {
-        AddArgument("attr-name", "default-ota-provider");
-        AddArgument("attr-value", &mValue);
+        AddArgument("attr-name", "int32u");
+        AddArgument("attr-value", 0, UINT32_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~WriteOtaSoftwareUpdateRequestorDefaultOtaProvider()
+    ~WriteTestClusterInt32u()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -16469,11 +35851,11 @@ class WriteOtaSoftwareUpdateRequestorDefaultOtaProvider : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x002A) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OtaSoftwareUpdateRequestorCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeDefaultOtaProvider(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return cluster.WriteAttributeInt32u(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
@@ -16481,56 +35863,74 @@ class WriteOtaSoftwareUpdateRequestorDefaultOtaProvider : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::ByteSpan mValue;
+    uint32_t mValue;
 };
 
-/*
- * Attribute UpdatePossible
- */
-class ReadOtaSoftwareUpdateRequestorUpdatePossible : public ModelCommand
+class ReportTestClusterInt32u : public ModelCommand
 {
 public:
-    ReadOtaSoftwareUpdateRequestorUpdatePossible() : ModelCommand("read")
+    ReportTestClusterInt32u() : ModelCommand("report")
     {
-        AddArgument("attr-name", "update-possible");
+        AddArgument("attr-name", "int32u");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadOtaSoftwareUpdateRequestorUpdatePossible()
+    ~ReportTestClusterInt32u()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x002A) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OtaSoftwareUpdateRequestorCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeUpdatePossible(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeInt32u(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeInt32u(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute Int64u
  */
-class ReadOtaSoftwareUpdateRequestorClusterRevision : public ModelCommand
+class ReadTestClusterInt64u : public ModelCommand
 {
 public:
-    ReadOtaSoftwareUpdateRequestorClusterRevision() : ModelCommand("read")
+    ReadTestClusterInt64u() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "int64u");
         ModelCommand::AddArguments();
     }
 
-    ~ReadOtaSoftwareUpdateRequestorClusterRevision()
+    ~ReadTestClusterInt64u()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -16538,45 +35938,31 @@ class ReadOtaSoftwareUpdateRequestorClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x002A) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OtaSoftwareUpdateRequestorCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeInt64u(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster OccupancySensing                                            | 0x0406 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * Occupancy                                                         | 0x0000 |
-| * OccupancySensorType                                               | 0x0001 |
-| * OccupancySensorTypeBitmap                                         | 0x0002 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Attribute Occupancy
- */
-class ReadOccupancySensingOccupancy : public ModelCommand
+class WriteTestClusterInt64u : public ModelCommand
 {
 public:
-    ReadOccupancySensingOccupancy() : ModelCommand("read")
+    WriteTestClusterInt64u() : ModelCommand("write")
     {
-        AddArgument("attr-name", "occupancy");
+        AddArgument("attr-name", "int64u");
+        AddArgument("attr-value", 0, UINT64_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadOccupancySensingOccupancy()
+    ~WriteTestClusterInt64u()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -16584,33 +35970,34 @@ class ReadOccupancySensingOccupancy : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0406) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OccupancySensingCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOccupancy(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeInt64u(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint64_t mValue;
 };
 
-class ReportOccupancySensingOccupancy : public ModelCommand
+class ReportTestClusterInt64u : public ModelCommand
 {
 public:
-    ReportOccupancySensingOccupancy() : ModelCommand("report")
+    ReportTestClusterInt64u() : ModelCommand("report")
     {
-        AddArgument("attr-name", "occupancy");
+        AddArgument("attr-name", "int64u");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportOccupancySensingOccupancy()
+    ~ReportTestClusterInt64u()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -16620,15 +36007,15 @@ class ReportOccupancySensingOccupancy : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0406) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OccupancySensingCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeOccupancy(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeInt64u(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeOccupancy(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeInt64u(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -16643,26 +36030,26 @@ class ReportOccupancySensingOccupancy : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
     uint16_t mMinInterval;
     uint16_t mMaxInterval;
     bool mWait;
 };
 
 /*
- * Attribute OccupancySensorType
+ * Attribute Int8s
  */
-class ReadOccupancySensingOccupancySensorType : public ModelCommand
+class ReadTestClusterInt8s : public ModelCommand
 {
 public:
-    ReadOccupancySensingOccupancySensorType() : ModelCommand("read")
+    ReadTestClusterInt8s() : ModelCommand("read")
     {
-        AddArgument("attr-name", "occupancy-sensor-type");
+        AddArgument("attr-name", "int8s");
         ModelCommand::AddArguments();
     }
 
-    ~ReadOccupancySensingOccupancySensorType()
+    ~ReadTestClusterInt8s()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -16670,33 +36057,31 @@ class ReadOccupancySensingOccupancySensorType : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0406) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OccupancySensingCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOccupancySensorType(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeInt8s(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8sAttributeCallback>(OnInt8sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute OccupancySensorTypeBitmap
- */
-class ReadOccupancySensingOccupancySensorTypeBitmap : public ModelCommand
+class WriteTestClusterInt8s : public ModelCommand
 {
 public:
-    ReadOccupancySensingOccupancySensorTypeBitmap() : ModelCommand("read")
+    WriteTestClusterInt8s() : ModelCommand("write")
     {
-        AddArgument("attr-name", "occupancy-sensor-type-bitmap");
+        AddArgument("attr-name", "int8s");
+        AddArgument("attr-value", INT8_MIN, INT8_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadOccupancySensingOccupancySensorTypeBitmap()
+    ~WriteTestClusterInt8s()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -16704,216 +36089,237 @@ class ReadOccupancySensingOccupancySensorTypeBitmap : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0406) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OccupancySensingCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOccupancySensorTypeBitmap(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeInt8s(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    int8_t mValue;
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadOccupancySensingClusterRevision : public ModelCommand
+class ReportTestClusterInt8s : public ModelCommand
 {
 public:
-    ReadOccupancySensingClusterRevision() : ModelCommand("read")
+    ReportTestClusterInt8s() : ModelCommand("report")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "int8s");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadOccupancySensingClusterRevision()
+    ~ReportTestClusterInt8s()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0406) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OccupancySensingCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
-    }
 
-private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-};
-
-/*----------------------------------------------------------------------------*\
-| Cluster OnOff                                                       | 0x0006 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * Off                                                               |   0x00 |
-| * OffWithEffect                                                     |   0x40 |
-| * On                                                                |   0x01 |
-| * OnWithRecallGlobalScene                                           |   0x41 |
-| * OnWithTimedOff                                                    |   0x42 |
-| * Toggle                                                            |   0x02 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * OnOff                                                             | 0x0000 |
-| * GlobalSceneControl                                                | 0x4000 |
-| * OnTime                                                            | 0x4001 |
-| * OffWaitTime                                                       | 0x4002 |
-| * StartUpOnOff                                                      | 0x4003 |
-| * FeatureMap                                                        | 0xFFFC |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
+        ReturnErrorOnFailure(cluster.ReportAttributeInt8s(onReportCallback->Cancel()));
 
-/*
- * Command Off
- */
-class OnOffOff : public ModelCommand
-{
-public:
-    OnOffOff() : ModelCommand("off") { ModelCommand::AddArguments(); }
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeInt8s(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000006) command (0x00000000) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::OnOff::Commands::Off::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8sAttributeCallback>(OnInt8sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command OffWithEffect
+ * Attribute Int16s
  */
-class OnOffOffWithEffect : public ModelCommand
+class ReadTestClusterInt16s : public ModelCommand
 {
 public:
-    OnOffOffWithEffect() : ModelCommand("off-with-effect")
+    ReadTestClusterInt16s() : ModelCommand("read")
     {
-        AddArgument("EffectId", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.effectId)> *>(&mRequest.effectId));
-        AddArgument("EffectVariant", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<decltype(mRequest.effectVariant)> *>(&mRequest.effectVariant));
+        AddArgument("attr-name", "int16s");
         ModelCommand::AddArguments();
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    ~ReadTestClusterInt16s()
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000006) command (0x00000040) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        delete onSuccessCallback;
+        delete onFailureCallback;
     }
 
-private:
-    chip::app::Clusters::OnOff::Commands::OffWithEffect::Type mRequest;
-};
-
-/*
- * Command On
- */
-class OnOffOn : public ModelCommand
-{
-public:
-    OnOffOn() : ModelCommand("on") { ModelCommand::AddArguments(); }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000006) command (0x00000001) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeInt16s(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::OnOff::Commands::On::Type mRequest;
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command OnWithRecallGlobalScene
- */
-class OnOffOnWithRecallGlobalScene : public ModelCommand
+class WriteTestClusterInt16s : public ModelCommand
 {
 public:
-    OnOffOnWithRecallGlobalScene() : ModelCommand("on-with-recall-global-scene") { ModelCommand::AddArguments(); }
+    WriteTestClusterInt16s() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "int16s");
+        AddArgument("attr-value", INT16_MIN, INT16_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteTestClusterInt16s()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000006) command (0x00000041) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeInt16s(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::app::Clusters::OnOff::Commands::OnWithRecallGlobalScene::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    int16_t mValue;
 };
 
-/*
- * Command OnWithTimedOff
- */
-class OnOffOnWithTimedOff : public ModelCommand
+class ReportTestClusterInt16s : public ModelCommand
 {
 public:
-    OnOffOnWithTimedOff() : ModelCommand("on-with-timed-off")
+    ReportTestClusterInt16s() : ModelCommand("report")
     {
-        AddArgument("OnOffControl", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<chip::app::Clusters::OnOff::OnOffControl> *>(&mRequest.onOffControl));
-        AddArgument("OnTime", 0, UINT16_MAX, &mRequest.onTime);
-        AddArgument("OffWaitTime", 0, UINT16_MAX, &mRequest.offWaitTime);
+        AddArgument("attr-name", "int16s");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportTestClusterInt16s()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000006) command (0x00000042) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeInt16s(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeInt16s(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::OnOff::Commands::OnWithTimedOff::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command Toggle
+ * Attribute Int32s
  */
-class OnOffToggle : public ModelCommand
+class ReadTestClusterInt32s : public ModelCommand
 {
 public:
-    OnOffToggle() : ModelCommand("toggle") { ModelCommand::AddArguments(); }
+    ReadTestClusterInt32s() : ModelCommand("read")
+    {
+        AddArgument("attr-name", "int32s");
+        ModelCommand::AddArguments();
+    }
+
+    ~ReadTestClusterInt32s()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000006) command (0x00000002) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeInt32s(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::OnOff::Commands::Toggle::Type mRequest;
+    chip::Callback::Callback<Int32sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32sAttributeCallback>(OnInt32sAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute OnOff
- */
-class ReadOnOffOnOff : public ModelCommand
+class WriteTestClusterInt32s : public ModelCommand
 {
 public:
-    ReadOnOffOnOff() : ModelCommand("read")
+    WriteTestClusterInt32s() : ModelCommand("write")
     {
-        AddArgument("attr-name", "on-off");
+        AddArgument("attr-name", "int32s");
+        AddArgument("attr-value", INT32_MIN, INT32_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadOnOffOnOff()
+    ~WriteTestClusterInt32s()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -16921,33 +36327,34 @@ class ReadOnOffOnOff : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OnOffCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOnOff(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeInt32s(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    int32_t mValue;
 };
 
-class ReportOnOffOnOff : public ModelCommand
+class ReportTestClusterInt32s : public ModelCommand
 {
 public:
-    ReportOnOffOnOff() : ModelCommand("report")
+    ReportTestClusterInt32s() : ModelCommand("report")
     {
-        AddArgument("attr-name", "on-off");
+        AddArgument("attr-name", "int32s");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportOnOffOnOff()
+    ~ReportTestClusterInt32s()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -16957,15 +36364,15 @@ class ReportOnOffOnOff : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OnOffCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeOnOff(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeInt32s(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeOnOff(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeInt32s(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -16980,26 +36387,26 @@ class ReportOnOffOnOff : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<BooleanAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeReport, this);
+    chip::Callback::Callback<Int32sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32sAttributeCallback>(OnInt32sAttributeReport, this);
     uint16_t mMinInterval;
     uint16_t mMaxInterval;
     bool mWait;
 };
 
 /*
- * Attribute GlobalSceneControl
+ * Attribute Int64s
  */
-class ReadOnOffGlobalSceneControl : public ModelCommand
+class ReadTestClusterInt64s : public ModelCommand
 {
 public:
-    ReadOnOffGlobalSceneControl() : ModelCommand("read")
+    ReadTestClusterInt64s() : ModelCommand("read")
     {
-        AddArgument("attr-name", "global-scene-control");
+        AddArgument("attr-name", "int64s");
         ModelCommand::AddArguments();
     }
 
-    ~ReadOnOffGlobalSceneControl()
+    ~ReadTestClusterInt64s()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -17007,33 +36414,31 @@ class ReadOnOffGlobalSceneControl : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OnOffCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeGlobalSceneControl(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeInt64s(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<Int64sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64sAttributeCallback>(OnInt64sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute OnTime
- */
-class ReadOnOffOnTime : public ModelCommand
+class WriteTestClusterInt64s : public ModelCommand
 {
 public:
-    ReadOnOffOnTime() : ModelCommand("read")
+    WriteTestClusterInt64s() : ModelCommand("write")
     {
-        AddArgument("attr-name", "on-time");
+        AddArgument("attr-name", "int64s");
+        AddArgument("attr-value", INT64_MIN, INT64_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadOnOffOnTime()
+    ~WriteTestClusterInt64s()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -17041,66 +36446,86 @@ class ReadOnOffOnTime : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OnOffCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOnTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeInt64s(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    int64_t mValue;
 };
 
-class WriteOnOffOnTime : public ModelCommand
+class ReportTestClusterInt64s : public ModelCommand
 {
 public:
-    WriteOnOffOnTime() : ModelCommand("write")
+    ReportTestClusterInt64s() : ModelCommand("report")
     {
-        AddArgument("attr-name", "on-time");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "int64s");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteOnOffOnTime()
+    ~ReportTestClusterInt64s()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OnOffCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeOnTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeInt64s(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeInt64s(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
+    chip::Callback::Callback<Int64sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64sAttributeCallback>(OnInt64sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute OffWaitTime
+ * Attribute Enum8
  */
-class ReadOnOffOffWaitTime : public ModelCommand
+class ReadTestClusterEnum8 : public ModelCommand
 {
 public:
-    ReadOnOffOffWaitTime() : ModelCommand("read")
+    ReadTestClusterEnum8() : ModelCommand("read")
     {
-        AddArgument("attr-name", "off-wait-time");
+        AddArgument("attr-name", "enum8");
         ModelCommand::AddArguments();
     }
 
-    ~ReadOnOffOffWaitTime()
+    ~ReadTestClusterEnum8()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -17108,31 +36533,31 @@ class ReadOnOffOffWaitTime : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OnOffCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOffWaitTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeEnum8(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteOnOffOffWaitTime : public ModelCommand
+class WriteTestClusterEnum8 : public ModelCommand
 {
 public:
-    WriteOnOffOffWaitTime() : ModelCommand("write")
+    WriteTestClusterEnum8() : ModelCommand("write")
     {
-        AddArgument("attr-name", "off-wait-time");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "enum8");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~WriteOnOffOffWaitTime()
+    ~WriteTestClusterEnum8()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -17140,11 +36565,11 @@ class WriteOnOffOffWaitTime : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OnOffCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeOffWaitTime(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return cluster.WriteAttributeEnum8(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
@@ -17152,54 +36577,74 @@ class WriteOnOffOffWaitTime : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
+    uint8_t mValue;
 };
 
-/*
- * Attribute StartUpOnOff
- */
-class ReadOnOffStartUpOnOff : public ModelCommand
+class ReportTestClusterEnum8 : public ModelCommand
 {
 public:
-    ReadOnOffStartUpOnOff() : ModelCommand("read")
+    ReportTestClusterEnum8() : ModelCommand("report")
     {
-        AddArgument("attr-name", "start-up-on-off");
+        AddArgument("attr-name", "enum8");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadOnOffStartUpOnOff()
+    ~ReportTestClusterEnum8()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OnOffCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeStartUpOnOff(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeEnum8(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeEnum8(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-class WriteOnOffStartUpOnOff : public ModelCommand
+/*
+ * Attribute Enum16
+ */
+class ReadTestClusterEnum16 : public ModelCommand
 {
 public:
-    WriteOnOffStartUpOnOff() : ModelCommand("write")
+    ReadTestClusterEnum16() : ModelCommand("read")
     {
-        AddArgument("attr-name", "start-up-on-off");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "enum16");
         ModelCommand::AddArguments();
     }
 
-    ~WriteOnOffStartUpOnOff()
+    ~ReadTestClusterEnum16()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -17207,34 +36652,31 @@ class WriteOnOffStartUpOnOff : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OnOffCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeStartUpOnOff(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return cluster.ReadAttributeEnum16(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
 };
 
-/*
- * Attribute FeatureMap
- */
-class ReadOnOffFeatureMap : public ModelCommand
+class WriteTestClusterEnum16 : public ModelCommand
 {
 public:
-    ReadOnOffFeatureMap() : ModelCommand("read")
+    WriteTestClusterEnum16() : ModelCommand("write")
     {
-        AddArgument("attr-name", "feature-map");
+        AddArgument("attr-name", "enum16");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadOnOffFeatureMap()
+    ~WriteTestClusterEnum16()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -17242,78 +36684,86 @@ class ReadOnOffFeatureMap : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OnOffCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeFeatureMap(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeEnum16(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadOnOffClusterRevision : public ModelCommand
+class ReportTestClusterEnum16 : public ModelCommand
 {
 public:
-    ReadOnOffClusterRevision() : ModelCommand("read")
+    ReportTestClusterEnum16() : ModelCommand("report")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "enum16");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadOnOffClusterRevision()
+    ~ReportTestClusterEnum16()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0006) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OnOffCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeEnum16(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeEnum16(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster OnOffSwitchConfiguration                                    | 0x0007 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * SwitchType                                                        | 0x0000 |
-| * SwitchActions                                                     | 0x0010 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
 /*
- * Attribute SwitchType
+ * Attribute OctetString
  */
-class ReadOnOffSwitchConfigurationSwitchType : public ModelCommand
+class ReadTestClusterOctetString : public ModelCommand
 {
 public:
-    ReadOnOffSwitchConfigurationSwitchType() : ModelCommand("read")
+    ReadTestClusterOctetString() : ModelCommand("read")
     {
-        AddArgument("attr-name", "switch-type");
+        AddArgument("attr-name", "octet-string");
         ModelCommand::AddArguments();
     }
 
-    ~ReadOnOffSwitchConfigurationSwitchType()
+    ~ReadTestClusterOctetString()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -17321,33 +36771,31 @@ class ReadOnOffSwitchConfigurationSwitchType : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0007) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OnOffSwitchConfigurationCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeSwitchType(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeOctetString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute SwitchActions
- */
-class ReadOnOffSwitchConfigurationSwitchActions : public ModelCommand
+class WriteTestClusterOctetString : public ModelCommand
 {
 public:
-    ReadOnOffSwitchConfigurationSwitchActions() : ModelCommand("read")
+    WriteTestClusterOctetString() : ModelCommand("write")
     {
-        AddArgument("attr-name", "switch-actions");
+        AddArgument("attr-name", "octet-string");
+        AddArgument("attr-value", &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadOnOffSwitchConfigurationSwitchActions()
+    ~WriteTestClusterOctetString()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -17355,66 +36803,86 @@ class ReadOnOffSwitchConfigurationSwitchActions : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0007) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OnOffSwitchConfigurationCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeSwitchActions(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeOctetString(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::ByteSpan mValue;
 };
 
-class WriteOnOffSwitchConfigurationSwitchActions : public ModelCommand
+class ReportTestClusterOctetString : public ModelCommand
 {
 public:
-    WriteOnOffSwitchConfigurationSwitchActions() : ModelCommand("write")
+    ReportTestClusterOctetString() : ModelCommand("report")
     {
-        AddArgument("attr-name", "switch-actions");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "octet-string");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteOnOffSwitchConfigurationSwitchActions()
+    ~ReportTestClusterOctetString()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0007) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OnOffSwitchConfigurationCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeSwitchActions(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOctetString(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOctetString(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute ListInt8u
  */
-class ReadOnOffSwitchConfigurationClusterRevision : public ModelCommand
+class ReadTestClusterListInt8u : public ModelCommand
 {
 public:
-    ReadOnOffSwitchConfigurationClusterRevision() : ModelCommand("read")
+    ReadTestClusterListInt8u() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "list-int8u");
         ModelCommand::AddArguments();
     }
 
-    ~ReadOnOffSwitchConfigurationClusterRevision()
+    ~ReadTestClusterListInt8u()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -17422,275 +36890,341 @@ class ReadOnOffSwitchConfigurationClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0007) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OnOffSwitchConfigurationCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeListInt8u(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<TestClusterListInt8uListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<TestClusterListInt8uListAttributeCallback>(OnTestClusterListInt8uListAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster OperationalCredentials                                      | 0x003E |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * AddNOC                                                            |   0x06 |
-| * AddTrustedRootCertificate                                         |   0x0B |
-| * AttestationRequest                                                |   0x00 |
-| * CertificateChainRequest                                           |   0x02 |
-| * OpCSRRequest                                                      |   0x04 |
-| * RemoveFabric                                                      |   0x0A |
-| * RemoveTrustedRootCertificate                                      |   0x0C |
-| * UpdateFabricLabel                                                 |   0x09 |
-| * UpdateNOC                                                         |   0x07 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * FabricsList                                                       | 0x0001 |
-| * SupportedFabrics                                                  | 0x0002 |
-| * CommissionedFabrics                                               | 0x0003 |
-| * TrustedRootCertificates                                           | 0x0004 |
-| * CurrentFabricIndex                                                | 0x0005 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
 /*
- * Command AddNOC
+ * Attribute ListOctetString
  */
-class OperationalCredentialsAddNOC : public ModelCommand
+class ReadTestClusterListOctetString : public ModelCommand
 {
 public:
-    OperationalCredentialsAddNOC() : ModelCommand("add-noc")
+    ReadTestClusterListOctetString() : ModelCommand("read")
     {
-        AddArgument("NOCValue", &mRequest.NOCValue);
-        AddArgument("ICACValue", &mRequest.ICACValue);
-        AddArgument("IPKValue", &mRequest.IPKValue);
-        AddArgument("CaseAdminNode", 0, UINT64_MAX, &mRequest.caseAdminNode);
-        AddArgument("AdminVendorId", 0, UINT16_MAX, &mRequest.adminVendorId);
+        AddArgument("attr-name", "list-octet-string");
         ModelCommand::AddArguments();
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
-    {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000003E) command (0x00000006) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnOperationalCredentialsNOCResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
-    }
-
-private:
-    chip::app::Clusters::OperationalCredentials::Commands::AddNOC::Type mRequest;
-};
-
-/*
- * Command AddTrustedRootCertificate
- */
-class OperationalCredentialsAddTrustedRootCertificate : public ModelCommand
-{
-public:
-    OperationalCredentialsAddTrustedRootCertificate() : ModelCommand("add-trusted-root-certificate")
+    ~ReadTestClusterListOctetString()
     {
-        AddArgument("RootCertificate", &mRequest.rootCertificate);
-        ModelCommand::AddArguments();
+        delete onSuccessCallback;
+        delete onFailureCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000003E) command (0x0000000B) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeListOctetString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::OperationalCredentials::Commands::AddTrustedRootCertificate::Type mRequest;
+    chip::Callback::Callback<TestClusterListOctetStringListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<TestClusterListOctetStringListAttributeCallback>(
+            OnTestClusterListOctetStringListAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
 /*
- * Command AttestationRequest
+ * Attribute ListStructOctetString
  */
-class OperationalCredentialsAttestationRequest : public ModelCommand
+class ReadTestClusterListStructOctetString : public ModelCommand
 {
 public:
-    OperationalCredentialsAttestationRequest() : ModelCommand("attestation-request")
+    ReadTestClusterListStructOctetString() : ModelCommand("read")
     {
-        AddArgument("AttestationNonce", &mRequest.attestationNonce);
+        AddArgument("attr-name", "list-struct-octet-string");
         ModelCommand::AddArguments();
     }
 
+    ~ReadTestClusterListStructOctetString()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000003E) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnOperationalCredentialsAttestationResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeListStructOctetString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::OperationalCredentials::Commands::AttestationRequest::Type mRequest;
+    chip::Callback::Callback<TestClusterListStructOctetStringListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<TestClusterListStructOctetStringListAttributeCallback>(
+            OnTestClusterListStructOctetStringListAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
 /*
- * Command CertificateChainRequest
+ * Attribute LongOctetString
  */
-class OperationalCredentialsCertificateChainRequest : public ModelCommand
+class ReadTestClusterLongOctetString : public ModelCommand
 {
 public:
-    OperationalCredentialsCertificateChainRequest() : ModelCommand("certificate-chain-request")
+    ReadTestClusterLongOctetString() : ModelCommand("read")
     {
-        AddArgument("CertificateType", 0, UINT8_MAX, &mRequest.certificateType);
+        AddArgument("attr-name", "long-octet-string");
         ModelCommand::AddArguments();
     }
 
+    ~ReadTestClusterLongOctetString()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000003E) command (0x00000002) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnOperationalCredentialsCertificateChainResponseSuccess,
-                                               OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeLongOctetString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::OperationalCredentials::Commands::CertificateChainRequest::Type mRequest;
+    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command OpCSRRequest
- */
-class OperationalCredentialsOpCSRRequest : public ModelCommand
+class WriteTestClusterLongOctetString : public ModelCommand
 {
 public:
-    OperationalCredentialsOpCSRRequest() : ModelCommand("op-csrrequest")
+    WriteTestClusterLongOctetString() : ModelCommand("write")
     {
-        AddArgument("CSRNonce", &mRequest.CSRNonce);
+        AddArgument("attr-name", "long-octet-string");
+        AddArgument("attr-value", &mValue);
         ModelCommand::AddArguments();
     }
 
+    ~WriteTestClusterLongOctetString()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000003E) command (0x00000004) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnOperationalCredentialsOpCSRResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeLongOctetString(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::app::Clusters::OperationalCredentials::Commands::OpCSRRequest::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::ByteSpan mValue;
 };
 
-/*
- * Command RemoveFabric
- */
-class OperationalCredentialsRemoveFabric : public ModelCommand
+class ReportTestClusterLongOctetString : public ModelCommand
 {
 public:
-    OperationalCredentialsRemoveFabric() : ModelCommand("remove-fabric")
+    ReportTestClusterLongOctetString() : ModelCommand("report")
     {
-        AddArgument("FabricIndex", 0, UINT8_MAX, &mRequest.fabricIndex);
+        AddArgument("attr-name", "long-octet-string");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportTestClusterLongOctetString()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000003E) command (0x0000000A) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnOperationalCredentialsNOCResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeLongOctetString(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeLongOctetString(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::OperationalCredentials::Commands::RemoveFabric::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command RemoveTrustedRootCertificate
+ * Attribute CharString
  */
-class OperationalCredentialsRemoveTrustedRootCertificate : public ModelCommand
+class ReadTestClusterCharString : public ModelCommand
 {
 public:
-    OperationalCredentialsRemoveTrustedRootCertificate() : ModelCommand("remove-trusted-root-certificate")
+    ReadTestClusterCharString() : ModelCommand("read")
     {
-        AddArgument("TrustedRootIdentifier", &mRequest.trustedRootIdentifier);
+        AddArgument("attr-name", "char-string");
         ModelCommand::AddArguments();
     }
 
+    ~ReadTestClusterCharString()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000003E) command (0x0000000C) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeCharString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::OperationalCredentials::Commands::RemoveTrustedRootCertificate::Type mRequest;
+    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command UpdateFabricLabel
- */
-class OperationalCredentialsUpdateFabricLabel : public ModelCommand
+class WriteTestClusterCharString : public ModelCommand
 {
 public:
-    OperationalCredentialsUpdateFabricLabel() : ModelCommand("update-fabric-label")
+    WriteTestClusterCharString() : ModelCommand("write")
     {
-        AddArgument("Label", &mRequest.label);
+        AddArgument("attr-name", "char-string");
+        AddArgument("attr-value", &mValue);
         ModelCommand::AddArguments();
     }
 
+    ~WriteTestClusterCharString()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000003E) command (0x00000009) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnOperationalCredentialsNOCResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeCharString(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::app::Clusters::OperationalCredentials::Commands::UpdateFabricLabel::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::CharSpan mValue;
 };
 
-/*
- * Command UpdateNOC
- */
-class OperationalCredentialsUpdateNOC : public ModelCommand
+class ReportTestClusterCharString : public ModelCommand
 {
 public:
-    OperationalCredentialsUpdateNOC() : ModelCommand("update-noc")
+    ReportTestClusterCharString() : ModelCommand("report")
     {
-        AddArgument("NOCValue", &mRequest.NOCValue);
-        AddArgument("ICACValue", &mRequest.ICACValue);
+        AddArgument("attr-name", "char-string");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportTestClusterCharString()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000003E) command (0x00000007) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnOperationalCredentialsNOCResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCharString(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCharString(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::OperationalCredentials::Commands::UpdateNOC::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute FabricsList
+ * Attribute LongCharString
  */
-class ReadOperationalCredentialsFabricsList : public ModelCommand
+class ReadTestClusterLongCharString : public ModelCommand
 {
 public:
-    ReadOperationalCredentialsFabricsList() : ModelCommand("read")
+    ReadTestClusterLongCharString() : ModelCommand("read")
     {
-        AddArgument("attr-name", "fabrics-list");
+        AddArgument("attr-name", "long-char-string");
         ModelCommand::AddArguments();
     }
 
-    ~ReadOperationalCredentialsFabricsList()
+    ~ReadTestClusterLongCharString()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -17698,34 +37232,31 @@ class ReadOperationalCredentialsFabricsList : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x003E) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OperationalCredentialsCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeFabricsList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeLongCharString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<OperationalCredentialsFabricsListListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<OperationalCredentialsFabricsListListAttributeCallback>(
-            OnOperationalCredentialsFabricsListListAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute SupportedFabrics
- */
-class ReadOperationalCredentialsSupportedFabrics : public ModelCommand
+class WriteTestClusterLongCharString : public ModelCommand
 {
 public:
-    ReadOperationalCredentialsSupportedFabrics() : ModelCommand("read")
+    WriteTestClusterLongCharString() : ModelCommand("write")
     {
-        AddArgument("attr-name", "supported-fabrics");
+        AddArgument("attr-name", "long-char-string");
+        AddArgument("attr-value", &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadOperationalCredentialsSupportedFabrics()
+    ~WriteTestClusterLongCharString()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -17733,67 +37264,86 @@ class ReadOperationalCredentialsSupportedFabrics : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x003E) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OperationalCredentialsCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeSupportedFabrics(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeLongCharString(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::CharSpan mValue;
 };
 
-/*
- * Attribute CommissionedFabrics
- */
-class ReadOperationalCredentialsCommissionedFabrics : public ModelCommand
+class ReportTestClusterLongCharString : public ModelCommand
 {
 public:
-    ReadOperationalCredentialsCommissionedFabrics() : ModelCommand("read")
+    ReportTestClusterLongCharString() : ModelCommand("report")
     {
-        AddArgument("attr-name", "commissioned-fabrics");
+        AddArgument("attr-name", "long-char-string");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadOperationalCredentialsCommissionedFabrics()
+    ~ReportTestClusterLongCharString()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x003E) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OperationalCredentialsCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCommissionedFabrics(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeLongCharString(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeLongCharString(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute TrustedRootCertificates
+ * Attribute EpochUs
  */
-class ReadOperationalCredentialsTrustedRootCertificates : public ModelCommand
+class ReadTestClusterEpochUs : public ModelCommand
 {
 public:
-    ReadOperationalCredentialsTrustedRootCertificates() : ModelCommand("read")
+    ReadTestClusterEpochUs() : ModelCommand("read")
     {
-        AddArgument("attr-name", "trusted-root-certificates");
+        AddArgument("attr-name", "epoch-us");
         ModelCommand::AddArguments();
     }
 
-    ~ReadOperationalCredentialsTrustedRootCertificates()
+    ~ReadTestClusterEpochUs()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -17801,34 +37351,31 @@ class ReadOperationalCredentialsTrustedRootCertificates : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x003E) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OperationalCredentialsCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTrustedRootCertificates(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeEpochUs(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<OperationalCredentialsTrustedRootCertificatesListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<OperationalCredentialsTrustedRootCertificatesListAttributeCallback>(
-            OnOperationalCredentialsTrustedRootCertificatesListAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute CurrentFabricIndex
- */
-class ReadOperationalCredentialsCurrentFabricIndex : public ModelCommand
+class WriteTestClusterEpochUs : public ModelCommand
 {
 public:
-    ReadOperationalCredentialsCurrentFabricIndex() : ModelCommand("read")
+    WriteTestClusterEpochUs() : ModelCommand("write")
     {
-        AddArgument("attr-name", "current-fabric-index");
+        AddArgument("attr-name", "epoch-us");
+        AddArgument("attr-value", 0, UINT64_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadOperationalCredentialsCurrentFabricIndex()
+    ~WriteTestClusterEpochUs()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -17836,86 +37383,86 @@ class ReadOperationalCredentialsCurrentFabricIndex : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x003E) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OperationalCredentialsCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentFabricIndex(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeEpochUs(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint64_t mValue;
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadOperationalCredentialsClusterRevision : public ModelCommand
+class ReportTestClusterEpochUs : public ModelCommand
 {
 public:
-    ReadOperationalCredentialsClusterRevision() : ModelCommand("read")
+    ReportTestClusterEpochUs() : ModelCommand("report")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "epoch-us");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadOperationalCredentialsClusterRevision()
+    ~ReportTestClusterEpochUs()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x003E) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::OperationalCredentialsCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeEpochUs(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeEpochUs(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster PowerSource                                                 | 0x002F |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * Status                                                            | 0x0000 |
-| * Order                                                             | 0x0001 |
-| * Description                                                       | 0x0002 |
-| * BatteryVoltage                                                    | 0x000B |
-| * BatteryPercentRemaining                                           | 0x000C |
-| * BatteryTimeRemaining                                              | 0x000D |
-| * BatteryChargeLevel                                                | 0x000E |
-| * ActiveBatteryFaults                                               | 0x0012 |
-| * BatteryChargeState                                                | 0x001A |
-| * FeatureMap                                                        | 0xFFFC |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
 /*
- * Attribute Status
+ * Attribute EpochS
  */
-class ReadPowerSourceStatus : public ModelCommand
+class ReadTestClusterEpochS : public ModelCommand
 {
 public:
-    ReadPowerSourceStatus() : ModelCommand("read")
+    ReadTestClusterEpochS() : ModelCommand("read")
     {
-        AddArgument("attr-name", "status");
+        AddArgument("attr-name", "epoch-s");
         ModelCommand::AddArguments();
     }
 
-    ~ReadPowerSourceStatus()
+    ~ReadTestClusterEpochS()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -17923,33 +37470,31 @@ class ReadPowerSourceStatus : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PowerSourceCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeStatus(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeEpochS(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute Order
- */
-class ReadPowerSourceOrder : public ModelCommand
+class WriteTestClusterEpochS : public ModelCommand
 {
 public:
-    ReadPowerSourceOrder() : ModelCommand("read")
+    WriteTestClusterEpochS() : ModelCommand("write")
     {
-        AddArgument("attr-name", "order");
+        AddArgument("attr-name", "epoch-s");
+        AddArgument("attr-value", 0, UINT32_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPowerSourceOrder()
+    ~WriteTestClusterEpochS()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -17957,67 +37502,86 @@ class ReadPowerSourceOrder : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PowerSourceCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOrder(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeEpochS(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint32_t mValue;
 };
 
-/*
- * Attribute Description
- */
-class ReadPowerSourceDescription : public ModelCommand
+class ReportTestClusterEpochS : public ModelCommand
 {
 public:
-    ReadPowerSourceDescription() : ModelCommand("read")
+    ReportTestClusterEpochS() : ModelCommand("report")
     {
-        AddArgument("attr-name", "description");
+        AddArgument("attr-name", "epoch-s");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPowerSourceDescription()
+    ~ReportTestClusterEpochS()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PowerSourceCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeDescription(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeEpochS(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeEpochS(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute BatteryVoltage
+ * Attribute VendorId
  */
-class ReadPowerSourceBatteryVoltage : public ModelCommand
+class ReadTestClusterVendorId : public ModelCommand
 {
 public:
-    ReadPowerSourceBatteryVoltage() : ModelCommand("read")
+    ReadTestClusterVendorId() : ModelCommand("read")
     {
-        AddArgument("attr-name", "battery-voltage");
+        AddArgument("attr-name", "vendor-id");
         ModelCommand::AddArguments();
     }
 
-    ~ReadPowerSourceBatteryVoltage()
+    ~ReadTestClusterVendorId()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -18025,33 +37589,31 @@ class ReadPowerSourceBatteryVoltage : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PowerSourceCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeBatteryVoltage(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeVendorId(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute BatteryPercentRemaining
- */
-class ReadPowerSourceBatteryPercentRemaining : public ModelCommand
+class WriteTestClusterVendorId : public ModelCommand
 {
 public:
-    ReadPowerSourceBatteryPercentRemaining() : ModelCommand("read")
+    WriteTestClusterVendorId() : ModelCommand("write")
     {
-        AddArgument("attr-name", "battery-percent-remaining");
+        AddArgument("attr-name", "vendor-id");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPowerSourceBatteryPercentRemaining()
+    ~WriteTestClusterVendorId()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -18059,67 +37621,86 @@ class ReadPowerSourceBatteryPercentRemaining : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PowerSourceCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeBatteryPercentRemaining(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeVendorId(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::VendorId mValue;
 };
 
-/*
- * Attribute BatteryTimeRemaining
- */
-class ReadPowerSourceBatteryTimeRemaining : public ModelCommand
+class ReportTestClusterVendorId : public ModelCommand
 {
 public:
-    ReadPowerSourceBatteryTimeRemaining() : ModelCommand("read")
+    ReportTestClusterVendorId() : ModelCommand("report")
     {
-        AddArgument("attr-name", "battery-time-remaining");
+        AddArgument("attr-name", "vendor-id");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPowerSourceBatteryTimeRemaining()
+    ~ReportTestClusterVendorId()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PowerSourceCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeBatteryTimeRemaining(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeVendorId(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeVendorId(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute BatteryChargeLevel
+ * Attribute ListNullablesAndOptionalsStruct
  */
-class ReadPowerSourceBatteryChargeLevel : public ModelCommand
+class ReadTestClusterListNullablesAndOptionalsStruct : public ModelCommand
 {
 public:
-    ReadPowerSourceBatteryChargeLevel() : ModelCommand("read")
+    ReadTestClusterListNullablesAndOptionalsStruct() : ModelCommand("read")
     {
-        AddArgument("attr-name", "battery-charge-level");
+        AddArgument("attr-name", "list-nullables-and-optionals-struct");
         ModelCommand::AddArguments();
     }
 
-    ~ReadPowerSourceBatteryChargeLevel()
+    ~ReadTestClusterListNullablesAndOptionalsStruct()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -18127,33 +37708,34 @@ class ReadPowerSourceBatteryChargeLevel : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PowerSourceCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeBatteryChargeLevel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeListNullablesAndOptionalsStruct(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<TestClusterListNullablesAndOptionalsStructListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<TestClusterListNullablesAndOptionalsStructListAttributeCallback>(
+            OnTestClusterListNullablesAndOptionalsStructListAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
 /*
- * Attribute ActiveBatteryFaults
+ * Attribute Unsupported
  */
-class ReadPowerSourceActiveBatteryFaults : public ModelCommand
+class ReadTestClusterUnsupported : public ModelCommand
 {
 public:
-    ReadPowerSourceActiveBatteryFaults() : ModelCommand("read")
+    ReadTestClusterUnsupported() : ModelCommand("read")
     {
-        AddArgument("attr-name", "active-battery-faults");
+        AddArgument("attr-name", "unsupported");
         ModelCommand::AddArguments();
     }
 
-    ~ReadPowerSourceActiveBatteryFaults()
+    ~ReadTestClusterUnsupported()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -18161,34 +37743,31 @@ class ReadPowerSourceActiveBatteryFaults : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PowerSourceCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeActiveBatteryFaults(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeUnsupported(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<PowerSourceActiveBatteryFaultsListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<PowerSourceActiveBatteryFaultsListAttributeCallback>(
-            OnPowerSourceActiveBatteryFaultsListAttributeResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute BatteryChargeState
- */
-class ReadPowerSourceBatteryChargeState : public ModelCommand
+class WriteTestClusterUnsupported : public ModelCommand
 {
 public:
-    ReadPowerSourceBatteryChargeState() : ModelCommand("read")
+    WriteTestClusterUnsupported() : ModelCommand("write")
     {
-        AddArgument("attr-name", "battery-charge-state");
+        AddArgument("attr-name", "unsupported");
+        AddArgument("attr-value", 0, 1, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPowerSourceBatteryChargeState()
+    ~WriteTestClusterUnsupported()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -18196,67 +37775,86 @@ class ReadPowerSourceBatteryChargeState : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PowerSourceCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeBatteryChargeState(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeUnsupported(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    bool mValue;
 };
 
-/*
- * Attribute FeatureMap
- */
-class ReadPowerSourceFeatureMap : public ModelCommand
+class ReportTestClusterUnsupported : public ModelCommand
 {
 public:
-    ReadPowerSourceFeatureMap() : ModelCommand("read")
+    ReportTestClusterUnsupported() : ModelCommand("report")
     {
-        AddArgument("attr-name", "feature-map");
+        AddArgument("attr-name", "unsupported");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPowerSourceFeatureMap()
+    ~ReportTestClusterUnsupported()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PowerSourceCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeFeatureMap(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeUnsupported(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeUnsupported(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute NullableBoolean
  */
-class ReadPowerSourceClusterRevision : public ModelCommand
+class ReadTestClusterNullableBoolean : public ModelCommand
 {
 public:
-    ReadPowerSourceClusterRevision() : ModelCommand("read")
+    ReadTestClusterNullableBoolean() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "nullable-boolean");
         ModelCommand::AddArguments();
     }
 
-    ~ReadPowerSourceClusterRevision()
+    ~ReadTestClusterNullableBoolean()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -18264,45 +37862,31 @@ class ReadPowerSourceClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x002F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PowerSourceCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNullableBoolean(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster PressureMeasurement                                         | 0x0403 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * MeasuredValue                                                     | 0x0000 |
-| * MinMeasuredValue                                                  | 0x0001 |
-| * MaxMeasuredValue                                                  | 0x0002 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Attribute MeasuredValue
- */
-class ReadPressureMeasurementMeasuredValue : public ModelCommand
+class WriteTestClusterNullableBoolean : public ModelCommand
 {
 public:
-    ReadPressureMeasurementMeasuredValue() : ModelCommand("read")
+    WriteTestClusterNullableBoolean() : ModelCommand("write")
     {
-        AddArgument("attr-name", "measured-value");
+        AddArgument("attr-name", "nullable-boolean");
+        AddArgument("attr-value", 0, 1, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPressureMeasurementMeasuredValue()
+    ~WriteTestClusterNullableBoolean()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -18310,33 +37894,34 @@ class ReadPressureMeasurementMeasuredValue : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0403) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PressureMeasurementCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeNullableBoolean(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    bool mValue;
 };
 
-class ReportPressureMeasurementMeasuredValue : public ModelCommand
+class ReportTestClusterNullableBoolean : public ModelCommand
 {
 public:
-    ReportPressureMeasurementMeasuredValue() : ModelCommand("report")
+    ReportTestClusterNullableBoolean() : ModelCommand("report")
     {
-        AddArgument("attr-name", "measured-value");
+        AddArgument("attr-name", "nullable-boolean");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportPressureMeasurementMeasuredValue()
+    ~ReportTestClusterNullableBoolean()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -18346,15 +37931,15 @@ class ReportPressureMeasurementMeasuredValue : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0403) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PressureMeasurementCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeMeasuredValue(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeNullableBoolean(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeMeasuredValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeNullableBoolean(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -18369,26 +37954,26 @@ class ReportPressureMeasurementMeasuredValue : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeReport, this);
     uint16_t mMinInterval;
     uint16_t mMaxInterval;
     bool mWait;
 };
 
 /*
- * Attribute MinMeasuredValue
+ * Attribute NullableBitmap8
  */
-class ReadPressureMeasurementMinMeasuredValue : public ModelCommand
+class ReadTestClusterNullableBitmap8 : public ModelCommand
 {
 public:
-    ReadPressureMeasurementMinMeasuredValue() : ModelCommand("read")
+    ReadTestClusterNullableBitmap8() : ModelCommand("read")
     {
-        AddArgument("attr-name", "min-measured-value");
+        AddArgument("attr-name", "nullable-bitmap8");
         ModelCommand::AddArguments();
     }
 
-    ~ReadPressureMeasurementMinMeasuredValue()
+    ~ReadTestClusterNullableBitmap8()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -18396,33 +37981,31 @@ class ReadPressureMeasurementMinMeasuredValue : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0403) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PressureMeasurementCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMinMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNullableBitmap8(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute MaxMeasuredValue
- */
-class ReadPressureMeasurementMaxMeasuredValue : public ModelCommand
+class WriteTestClusterNullableBitmap8 : public ModelCommand
 {
 public:
-    ReadPressureMeasurementMaxMeasuredValue() : ModelCommand("read")
+    WriteTestClusterNullableBitmap8() : ModelCommand("write")
     {
-        AddArgument("attr-name", "max-measured-value");
+        AddArgument("attr-name", "nullable-bitmap8");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPressureMeasurementMaxMeasuredValue()
+    ~WriteTestClusterNullableBitmap8()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -18430,99 +38013,86 @@ class ReadPressureMeasurementMaxMeasuredValue : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0403) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PressureMeasurementCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMaxMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeNullableBitmap8(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadPressureMeasurementClusterRevision : public ModelCommand
+class ReportTestClusterNullableBitmap8 : public ModelCommand
 {
 public:
-    ReadPressureMeasurementClusterRevision() : ModelCommand("read")
+    ReportTestClusterNullableBitmap8() : ModelCommand("report")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "nullable-bitmap8");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPressureMeasurementClusterRevision()
+    ~ReportTestClusterNullableBitmap8()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0403) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PressureMeasurementCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeNullableBitmap8(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeNullableBitmap8(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster PumpConfigurationAndControl                                 | 0x0200 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * MaxPressure                                                       | 0x0000 |
-| * MaxSpeed                                                          | 0x0001 |
-| * MaxFlow                                                           | 0x0002 |
-| * MinConstPressure                                                  | 0x0003 |
-| * MaxConstPressure                                                  | 0x0004 |
-| * MinCompPressure                                                   | 0x0005 |
-| * MaxCompPressure                                                   | 0x0006 |
-| * MinConstSpeed                                                     | 0x0007 |
-| * MaxConstSpeed                                                     | 0x0008 |
-| * MinConstFlow                                                      | 0x0009 |
-| * MaxConstFlow                                                      | 0x000A |
-| * MinConstTemp                                                      | 0x000B |
-| * MaxConstTemp                                                      | 0x000C |
-| * PumpStatus                                                        | 0x0010 |
-| * EffectiveOperationMode                                            | 0x0011 |
-| * EffectiveControlMode                                              | 0x0012 |
-| * Capacity                                                          | 0x0013 |
-| * Speed                                                             | 0x0014 |
-| * LifetimeEnergyConsumed                                            | 0x0017 |
-| * OperationMode                                                     | 0x0020 |
-| * ControlMode                                                       | 0x0021 |
-| * AlarmMask                                                         | 0x0022 |
-| * FeatureMap                                                        | 0xFFFC |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
 /*
- * Attribute MaxPressure
+ * Attribute NullableBitmap16
  */
-class ReadPumpConfigurationAndControlMaxPressure : public ModelCommand
+class ReadTestClusterNullableBitmap16 : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlMaxPressure() : ModelCommand("read")
+    ReadTestClusterNullableBitmap16() : ModelCommand("read")
     {
-        AddArgument("attr-name", "max-pressure");
+        AddArgument("attr-name", "nullable-bitmap16");
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlMaxPressure()
+    ~ReadTestClusterNullableBitmap16()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -18530,33 +38100,31 @@ class ReadPumpConfigurationAndControlMaxPressure : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMaxPressure(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNullableBitmap16(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute MaxSpeed
- */
-class ReadPumpConfigurationAndControlMaxSpeed : public ModelCommand
+class WriteTestClusterNullableBitmap16 : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlMaxSpeed() : ModelCommand("read")
+    WriteTestClusterNullableBitmap16() : ModelCommand("write")
     {
-        AddArgument("attr-name", "max-speed");
+        AddArgument("attr-name", "nullable-bitmap16");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlMaxSpeed()
+    ~WriteTestClusterNullableBitmap16()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -18564,67 +38132,86 @@ class ReadPumpConfigurationAndControlMaxSpeed : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMaxSpeed(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeNullableBitmap16(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
 };
 
-/*
- * Attribute MaxFlow
- */
-class ReadPumpConfigurationAndControlMaxFlow : public ModelCommand
+class ReportTestClusterNullableBitmap16 : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlMaxFlow() : ModelCommand("read")
+    ReportTestClusterNullableBitmap16() : ModelCommand("report")
     {
-        AddArgument("attr-name", "max-flow");
+        AddArgument("attr-name", "nullable-bitmap16");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlMaxFlow()
+    ~ReportTestClusterNullableBitmap16()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMaxFlow(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeNullableBitmap16(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeNullableBitmap16(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute MinConstPressure
+ * Attribute NullableBitmap32
  */
-class ReadPumpConfigurationAndControlMinConstPressure : public ModelCommand
+class ReadTestClusterNullableBitmap32 : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlMinConstPressure() : ModelCommand("read")
+    ReadTestClusterNullableBitmap32() : ModelCommand("read")
     {
-        AddArgument("attr-name", "min-const-pressure");
+        AddArgument("attr-name", "nullable-bitmap32");
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlMinConstPressure()
+    ~ReadTestClusterNullableBitmap32()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -18632,33 +38219,31 @@ class ReadPumpConfigurationAndControlMinConstPressure : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMinConstPressure(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNullableBitmap32(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute MaxConstPressure
- */
-class ReadPumpConfigurationAndControlMaxConstPressure : public ModelCommand
+class WriteTestClusterNullableBitmap32 : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlMaxConstPressure() : ModelCommand("read")
+    WriteTestClusterNullableBitmap32() : ModelCommand("write")
     {
-        AddArgument("attr-name", "max-const-pressure");
+        AddArgument("attr-name", "nullable-bitmap32");
+        AddArgument("attr-value", 0, UINT32_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlMaxConstPressure()
+    ~WriteTestClusterNullableBitmap32()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -18666,67 +38251,86 @@ class ReadPumpConfigurationAndControlMaxConstPressure : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMaxConstPressure(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeNullableBitmap32(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint32_t mValue;
 };
 
-/*
- * Attribute MinCompPressure
- */
-class ReadPumpConfigurationAndControlMinCompPressure : public ModelCommand
+class ReportTestClusterNullableBitmap32 : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlMinCompPressure() : ModelCommand("read")
+    ReportTestClusterNullableBitmap32() : ModelCommand("report")
     {
-        AddArgument("attr-name", "min-comp-pressure");
+        AddArgument("attr-name", "nullable-bitmap32");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlMinCompPressure()
+    ~ReportTestClusterNullableBitmap32()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMinCompPressure(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeNullableBitmap32(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeNullableBitmap32(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute MaxCompPressure
+ * Attribute NullableBitmap64
  */
-class ReadPumpConfigurationAndControlMaxCompPressure : public ModelCommand
+class ReadTestClusterNullableBitmap64 : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlMaxCompPressure() : ModelCommand("read")
+    ReadTestClusterNullableBitmap64() : ModelCommand("read")
     {
-        AddArgument("attr-name", "max-comp-pressure");
+        AddArgument("attr-name", "nullable-bitmap64");
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlMaxCompPressure()
+    ~ReadTestClusterNullableBitmap64()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -18734,33 +38338,31 @@ class ReadPumpConfigurationAndControlMaxCompPressure : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMaxCompPressure(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNullableBitmap64(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute MinConstSpeed
- */
-class ReadPumpConfigurationAndControlMinConstSpeed : public ModelCommand
+class WriteTestClusterNullableBitmap64 : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlMinConstSpeed() : ModelCommand("read")
+    WriteTestClusterNullableBitmap64() : ModelCommand("write")
     {
-        AddArgument("attr-name", "min-const-speed");
+        AddArgument("attr-name", "nullable-bitmap64");
+        AddArgument("attr-value", 0, UINT64_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlMinConstSpeed()
+    ~WriteTestClusterNullableBitmap64()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -18768,67 +38370,86 @@ class ReadPumpConfigurationAndControlMinConstSpeed : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMinConstSpeed(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeNullableBitmap64(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint64_t mValue;
 };
 
-/*
- * Attribute MaxConstSpeed
- */
-class ReadPumpConfigurationAndControlMaxConstSpeed : public ModelCommand
+class ReportTestClusterNullableBitmap64 : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlMaxConstSpeed() : ModelCommand("read")
+    ReportTestClusterNullableBitmap64() : ModelCommand("report")
     {
-        AddArgument("attr-name", "max-const-speed");
+        AddArgument("attr-name", "nullable-bitmap64");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlMaxConstSpeed()
+    ~ReportTestClusterNullableBitmap64()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMaxConstSpeed(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeNullableBitmap64(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeNullableBitmap64(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute MinConstFlow
+ * Attribute NullableInt8u
  */
-class ReadPumpConfigurationAndControlMinConstFlow : public ModelCommand
+class ReadTestClusterNullableInt8u : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlMinConstFlow() : ModelCommand("read")
+    ReadTestClusterNullableInt8u() : ModelCommand("read")
     {
-        AddArgument("attr-name", "min-const-flow");
+        AddArgument("attr-name", "nullable-int8u");
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlMinConstFlow()
+    ~ReadTestClusterNullableInt8u()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -18836,33 +38457,31 @@ class ReadPumpConfigurationAndControlMinConstFlow : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMinConstFlow(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNullableInt8u(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
-private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+private:
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute MaxConstFlow
- */
-class ReadPumpConfigurationAndControlMaxConstFlow : public ModelCommand
+class WriteTestClusterNullableInt8u : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlMaxConstFlow() : ModelCommand("read")
+    WriteTestClusterNullableInt8u() : ModelCommand("write")
     {
-        AddArgument("attr-name", "max-const-flow");
+        AddArgument("attr-name", "nullable-int8u");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlMaxConstFlow()
+    ~WriteTestClusterNullableInt8u()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -18870,67 +38489,86 @@ class ReadPumpConfigurationAndControlMaxConstFlow : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMaxConstFlow(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeNullableInt8u(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
 };
 
-/*
- * Attribute MinConstTemp
- */
-class ReadPumpConfigurationAndControlMinConstTemp : public ModelCommand
+class ReportTestClusterNullableInt8u : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlMinConstTemp() : ModelCommand("read")
+    ReportTestClusterNullableInt8u() : ModelCommand("report")
     {
-        AddArgument("attr-name", "min-const-temp");
+        AddArgument("attr-name", "nullable-int8u");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlMinConstTemp()
+    ~ReportTestClusterNullableInt8u()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMinConstTemp(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeNullableInt8u(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeNullableInt8u(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute MaxConstTemp
+ * Attribute NullableInt16u
  */
-class ReadPumpConfigurationAndControlMaxConstTemp : public ModelCommand
+class ReadTestClusterNullableInt16u : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlMaxConstTemp() : ModelCommand("read")
+    ReadTestClusterNullableInt16u() : ModelCommand("read")
     {
-        AddArgument("attr-name", "max-const-temp");
+        AddArgument("attr-name", "nullable-int16u");
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlMaxConstTemp()
+    ~ReadTestClusterNullableInt16u()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -18938,33 +38576,31 @@ class ReadPumpConfigurationAndControlMaxConstTemp : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMaxConstTemp(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNullableInt16u(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute PumpStatus
- */
-class ReadPumpConfigurationAndControlPumpStatus : public ModelCommand
+class WriteTestClusterNullableInt16u : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlPumpStatus() : ModelCommand("read")
+    WriteTestClusterNullableInt16u() : ModelCommand("write")
     {
-        AddArgument("attr-name", "pump-status");
+        AddArgument("attr-name", "nullable-int16u");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlPumpStatus()
+    ~WriteTestClusterNullableInt16u()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -18972,33 +38608,34 @@ class ReadPumpConfigurationAndControlPumpStatus : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePumpStatus(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeNullableInt16u(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
 };
 
-class ReportPumpConfigurationAndControlPumpStatus : public ModelCommand
+class ReportTestClusterNullableInt16u : public ModelCommand
 {
 public:
-    ReportPumpConfigurationAndControlPumpStatus() : ModelCommand("report")
+    ReportTestClusterNullableInt16u() : ModelCommand("report")
     {
-        AddArgument("attr-name", "pump-status");
+        AddArgument("attr-name", "nullable-int16u");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportPumpConfigurationAndControlPumpStatus()
+    ~ReportTestClusterNullableInt16u()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -19008,15 +38645,15 @@ class ReportPumpConfigurationAndControlPumpStatus : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributePumpStatus(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeNullableInt16u(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributePumpStatus(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeNullableInt16u(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -19039,52 +38676,18 @@ class ReportPumpConfigurationAndControlPumpStatus : public ModelCommand
 };
 
 /*
- * Attribute EffectiveOperationMode
- */
-class ReadPumpConfigurationAndControlEffectiveOperationMode : public ModelCommand
-{
-public:
-    ReadPumpConfigurationAndControlEffectiveOperationMode() : ModelCommand("read")
-    {
-        AddArgument("attr-name", "effective-operation-mode");
-        ModelCommand::AddArguments();
-    }
-
-    ~ReadPumpConfigurationAndControlEffectiveOperationMode()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
-    {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
-
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeEffectiveOperationMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
-    }
-
-private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-};
-
-/*
- * Attribute EffectiveControlMode
+ * Attribute NullableInt32u
  */
-class ReadPumpConfigurationAndControlEffectiveControlMode : public ModelCommand
+class ReadTestClusterNullableInt32u : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlEffectiveControlMode() : ModelCommand("read")
+    ReadTestClusterNullableInt32u() : ModelCommand("read")
     {
-        AddArgument("attr-name", "effective-control-mode");
+        AddArgument("attr-name", "nullable-int32u");
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlEffectiveControlMode()
+    ~ReadTestClusterNullableInt32u()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -19092,33 +38695,31 @@ class ReadPumpConfigurationAndControlEffectiveControlMode : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeEffectiveControlMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNullableInt32u(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute Capacity
- */
-class ReadPumpConfigurationAndControlCapacity : public ModelCommand
+class WriteTestClusterNullableInt32u : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlCapacity() : ModelCommand("read")
+    WriteTestClusterNullableInt32u() : ModelCommand("write")
     {
-        AddArgument("attr-name", "capacity");
+        AddArgument("attr-name", "nullable-int32u");
+        AddArgument("attr-value", 0, UINT32_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlCapacity()
+    ~WriteTestClusterNullableInt32u()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -19126,33 +38727,34 @@ class ReadPumpConfigurationAndControlCapacity : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCapacity(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeNullableInt32u(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint32_t mValue;
 };
 
-class ReportPumpConfigurationAndControlCapacity : public ModelCommand
+class ReportTestClusterNullableInt32u : public ModelCommand
 {
 public:
-    ReportPumpConfigurationAndControlCapacity() : ModelCommand("report")
+    ReportTestClusterNullableInt32u() : ModelCommand("report")
     {
-        AddArgument("attr-name", "capacity");
+        AddArgument("attr-name", "nullable-int32u");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportPumpConfigurationAndControlCapacity()
+    ~ReportTestClusterNullableInt32u()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -19162,15 +38764,15 @@ class ReportPumpConfigurationAndControlCapacity : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeCapacity(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeNullableInt32u(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeCapacity(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeNullableInt32u(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -19185,26 +38787,26 @@ class ReportPumpConfigurationAndControlCapacity : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
     uint16_t mMinInterval;
     uint16_t mMaxInterval;
     bool mWait;
 };
 
 /*
- * Attribute Speed
+ * Attribute NullableInt64u
  */
-class ReadPumpConfigurationAndControlSpeed : public ModelCommand
+class ReadTestClusterNullableInt64u : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlSpeed() : ModelCommand("read")
+    ReadTestClusterNullableInt64u() : ModelCommand("read")
     {
-        AddArgument("attr-name", "speed");
+        AddArgument("attr-name", "nullable-int64u");
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlSpeed()
+    ~ReadTestClusterNullableInt64u()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -19212,33 +38814,31 @@ class ReadPumpConfigurationAndControlSpeed : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeSpeed(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNullableInt64u(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute LifetimeEnergyConsumed
- */
-class ReadPumpConfigurationAndControlLifetimeEnergyConsumed : public ModelCommand
+class WriteTestClusterNullableInt64u : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlLifetimeEnergyConsumed() : ModelCommand("read")
+    WriteTestClusterNullableInt64u() : ModelCommand("write")
     {
-        AddArgument("attr-name", "lifetime-energy-consumed");
+        AddArgument("attr-name", "nullable-int64u");
+        AddArgument("attr-value", 0, UINT64_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlLifetimeEnergyConsumed()
+    ~WriteTestClusterNullableInt64u()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -19246,65 +38846,86 @@ class ReadPumpConfigurationAndControlLifetimeEnergyConsumed : public ModelComman
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeLifetimeEnergyConsumed(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeNullableInt64u(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint64_t mValue;
 };
 
-/*
- * Attribute OperationMode
- */
-class ReadPumpConfigurationAndControlOperationMode : public ModelCommand
+class ReportTestClusterNullableInt64u : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlOperationMode() : ModelCommand("read")
+    ReportTestClusterNullableInt64u() : ModelCommand("report")
     {
-        AddArgument("attr-name", "operation-mode");
+        AddArgument("attr-name", "nullable-int64u");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlOperationMode()
+    ~ReportTestClusterNullableInt64u()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOperationMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeNullableInt64u(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeNullableInt64u(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-class WritePumpConfigurationAndControlOperationMode : public ModelCommand
+/*
+ * Attribute NullableInt8s
+ */
+class ReadTestClusterNullableInt8s : public ModelCommand
 {
 public:
-    WritePumpConfigurationAndControlOperationMode() : ModelCommand("write")
+    ReadTestClusterNullableInt8s() : ModelCommand("read")
     {
-        AddArgument("attr-name", "operation-mode");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "nullable-int8s");
         ModelCommand::AddArguments();
     }
 
-    ~WritePumpConfigurationAndControlOperationMode()
+    ~ReadTestClusterNullableInt8s()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -19312,34 +38933,31 @@ class WritePumpConfigurationAndControlOperationMode : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeOperationMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return cluster.ReadAttributeNullableInt8s(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<Int8sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8sAttributeCallback>(OnInt8sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
 };
 
-/*
- * Attribute ControlMode
- */
-class ReadPumpConfigurationAndControlControlMode : public ModelCommand
+class WriteTestClusterNullableInt8s : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlControlMode() : ModelCommand("read")
+    WriteTestClusterNullableInt8s() : ModelCommand("write")
     {
-        AddArgument("attr-name", "control-mode");
+        AddArgument("attr-name", "nullable-int8s");
+        AddArgument("attr-value", INT8_MIN, INT8_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlControlMode()
+    ~WriteTestClusterNullableInt8s()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -19347,66 +38965,86 @@ class ReadPumpConfigurationAndControlControlMode : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeControlMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeNullableInt8s(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    int8_t mValue;
 };
 
-class WritePumpConfigurationAndControlControlMode : public ModelCommand
+class ReportTestClusterNullableInt8s : public ModelCommand
 {
 public:
-    WritePumpConfigurationAndControlControlMode() : ModelCommand("write")
+    ReportTestClusterNullableInt8s() : ModelCommand("report")
     {
-        AddArgument("attr-name", "control-mode");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "nullable-int8s");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WritePumpConfigurationAndControlControlMode()
+    ~ReportTestClusterNullableInt8s()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeControlMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeNullableInt8s(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeNullableInt8s(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
+    chip::Callback::Callback<Int8sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8sAttributeCallback>(OnInt8sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute AlarmMask
+ * Attribute NullableInt16s
  */
-class ReadPumpConfigurationAndControlAlarmMask : public ModelCommand
+class ReadTestClusterNullableInt16s : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlAlarmMask() : ModelCommand("read")
+    ReadTestClusterNullableInt16s() : ModelCommand("read")
     {
-        AddArgument("attr-name", "alarm-mask");
+        AddArgument("attr-name", "nullable-int16s");
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlAlarmMask()
+    ~ReadTestClusterNullableInt16s()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -19414,33 +39052,31 @@ class ReadPumpConfigurationAndControlAlarmMask : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeAlarmMask(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNullableInt16s(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute FeatureMap
- */
-class ReadPumpConfigurationAndControlFeatureMap : public ModelCommand
+class WriteTestClusterNullableInt16s : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlFeatureMap() : ModelCommand("read")
+    WriteTestClusterNullableInt16s() : ModelCommand("write")
     {
-        AddArgument("attr-name", "feature-map");
+        AddArgument("attr-name", "nullable-int16s");
+        AddArgument("attr-value", INT16_MIN, INT16_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlFeatureMap()
+    ~WriteTestClusterNullableInt16s()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -19448,80 +39084,86 @@ class ReadPumpConfigurationAndControlFeatureMap : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeFeatureMap(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeNullableInt16s(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    int16_t mValue;
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadPumpConfigurationAndControlClusterRevision : public ModelCommand
+class ReportTestClusterNullableInt16s : public ModelCommand
 {
 public:
-    ReadPumpConfigurationAndControlClusterRevision() : ModelCommand("read")
+    ReportTestClusterNullableInt16s() : ModelCommand("report")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "nullable-int16s");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadPumpConfigurationAndControlClusterRevision()
+    ~ReportTestClusterNullableInt16s()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0200) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::PumpConfigurationAndControlCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeNullableInt16s(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeNullableInt16s(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster RelativeHumidityMeasurement                                 | 0x0405 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * MeasuredValue                                                     | 0x0000 |
-| * MinMeasuredValue                                                  | 0x0001 |
-| * MaxMeasuredValue                                                  | 0x0002 |
-| * Tolerance                                                         | 0x0003 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
 /*
- * Attribute MeasuredValue
+ * Attribute NullableInt32s
  */
-class ReadRelativeHumidityMeasurementMeasuredValue : public ModelCommand
+class ReadTestClusterNullableInt32s : public ModelCommand
 {
 public:
-    ReadRelativeHumidityMeasurementMeasuredValue() : ModelCommand("read")
+    ReadTestClusterNullableInt32s() : ModelCommand("read")
     {
-        AddArgument("attr-name", "measured-value");
+        AddArgument("attr-name", "nullable-int32s");
         ModelCommand::AddArguments();
     }
 
-    ~ReadRelativeHumidityMeasurementMeasuredValue()
+    ~ReadTestClusterNullableInt32s()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -19529,119 +39171,118 @@ class ReadRelativeHumidityMeasurementMeasuredValue : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0405) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::RelativeHumidityMeasurementCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNullableInt32s(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int32sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32sAttributeCallback>(OnInt32sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class ReportRelativeHumidityMeasurementMeasuredValue : public ModelCommand
+class WriteTestClusterNullableInt32s : public ModelCommand
 {
 public:
-    ReportRelativeHumidityMeasurementMeasuredValue() : ModelCommand("report")
+    WriteTestClusterNullableInt32s() : ModelCommand("write")
     {
-        AddArgument("attr-name", "measured-value");
-        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
-        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
-        AddArgument("wait", 0, 1, &mWait);
+        AddArgument("attr-name", "nullable-int32s");
+        AddArgument("attr-value", INT32_MIN, INT32_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReportRelativeHumidityMeasurementMeasuredValue()
+    ~WriteTestClusterNullableInt32s()
     {
         delete onSuccessCallback;
-        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
-        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0405) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::RelativeHumidityMeasurementCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-
-        ReturnErrorOnFailure(cluster.ReportAttributeMeasuredValue(onReportCallback->Cancel()));
-
-        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeMeasuredValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
-    }
-
-    chip::System::Clock::Timeout GetWaitDuration() const override
-    {
-        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+        return cluster.WriteAttributeNullableInt32s(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
-    uint16_t mMinInterval;
-    uint16_t mMaxInterval;
-    bool mWait;
+    int32_t mValue;
 };
 
-/*
- * Attribute MinMeasuredValue
- */
-class ReadRelativeHumidityMeasurementMinMeasuredValue : public ModelCommand
+class ReportTestClusterNullableInt32s : public ModelCommand
 {
 public:
-    ReadRelativeHumidityMeasurementMinMeasuredValue() : ModelCommand("read")
+    ReportTestClusterNullableInt32s() : ModelCommand("report")
     {
-        AddArgument("attr-name", "min-measured-value");
+        AddArgument("attr-name", "nullable-int32s");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadRelativeHumidityMeasurementMinMeasuredValue()
+    ~ReportTestClusterNullableInt32s()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0405) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::RelativeHumidityMeasurementCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMinMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeNullableInt32s(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeNullableInt32s(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32sAttributeCallback>(OnInt32sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute MaxMeasuredValue
+ * Attribute NullableInt64s
  */
-class ReadRelativeHumidityMeasurementMaxMeasuredValue : public ModelCommand
+class ReadTestClusterNullableInt64s : public ModelCommand
 {
 public:
-    ReadRelativeHumidityMeasurementMaxMeasuredValue() : ModelCommand("read")
+    ReadTestClusterNullableInt64s() : ModelCommand("read")
     {
-        AddArgument("attr-name", "max-measured-value");
+        AddArgument("attr-name", "nullable-int64s");
         ModelCommand::AddArguments();
     }
 
-    ~ReadRelativeHumidityMeasurementMaxMeasuredValue()
+    ~ReadTestClusterNullableInt64s()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -19649,33 +39290,31 @@ class ReadRelativeHumidityMeasurementMaxMeasuredValue : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0405) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::RelativeHumidityMeasurementCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMaxMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNullableInt64s(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int64sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64sAttributeCallback>(OnInt64sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute Tolerance
- */
-class ReadRelativeHumidityMeasurementTolerance : public ModelCommand
+class WriteTestClusterNullableInt64s : public ModelCommand
 {
 public:
-    ReadRelativeHumidityMeasurementTolerance() : ModelCommand("read")
+    WriteTestClusterNullableInt64s() : ModelCommand("write")
     {
-        AddArgument("attr-name", "tolerance");
+        AddArgument("attr-name", "nullable-int64s");
+        AddArgument("attr-value", INT64_MIN, INT64_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadRelativeHumidityMeasurementTolerance()
+    ~WriteTestClusterNullableInt64s()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -19683,33 +39322,34 @@ class ReadRelativeHumidityMeasurementTolerance : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0405) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::RelativeHumidityMeasurementCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTolerance(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeNullableInt64s(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    int64_t mValue;
 };
 
-class ReportRelativeHumidityMeasurementTolerance : public ModelCommand
+class ReportTestClusterNullableInt64s : public ModelCommand
 {
 public:
-    ReportRelativeHumidityMeasurementTolerance() : ModelCommand("report")
+    ReportTestClusterNullableInt64s() : ModelCommand("report")
     {
-        AddArgument("attr-name", "tolerance");
+        AddArgument("attr-name", "nullable-int64s");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportRelativeHumidityMeasurementTolerance()
+    ~ReportTestClusterNullableInt64s()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -19719,15 +39359,15 @@ class ReportRelativeHumidityMeasurementTolerance : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0405) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::RelativeHumidityMeasurementCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeTolerance(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeNullableInt64s(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeTolerance(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeNullableInt64s(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -19742,26 +39382,26 @@ class ReportRelativeHumidityMeasurementTolerance : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    chip::Callback::Callback<Int64sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64sAttributeCallback>(OnInt64sAttributeReport, this);
     uint16_t mMinInterval;
     uint16_t mMaxInterval;
     bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute NullableEnum8
  */
-class ReadRelativeHumidityMeasurementClusterRevision : public ModelCommand
+class ReadTestClusterNullableEnum8 : public ModelCommand
 {
 public:
-    ReadRelativeHumidityMeasurementClusterRevision() : ModelCommand("read")
+    ReadTestClusterNullableEnum8() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "nullable-enum8");
         ModelCommand::AddArguments();
     }
 
-    ~ReadRelativeHumidityMeasurementClusterRevision()
+    ~ReadTestClusterNullableEnum8()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -19769,230 +39409,237 @@ class ReadRelativeHumidityMeasurementClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0405) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::RelativeHumidityMeasurementCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNullableEnum8(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster Scenes                                                      | 0x0005 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * AddScene                                                          |   0x00 |
-| * GetSceneMembership                                                |   0x06 |
-| * RecallScene                                                       |   0x05 |
-| * RemoveAllScenes                                                   |   0x03 |
-| * RemoveScene                                                       |   0x02 |
-| * StoreScene                                                        |   0x04 |
-| * ViewScene                                                         |   0x01 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * SceneCount                                                        | 0x0000 |
-| * CurrentScene                                                      | 0x0001 |
-| * CurrentGroup                                                      | 0x0002 |
-| * SceneValid                                                        | 0x0003 |
-| * NameSupport                                                       | 0x0004 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Command AddScene
- */
-class ScenesAddScene : public ModelCommand
+class WriteTestClusterNullableEnum8 : public ModelCommand
 {
 public:
-    ScenesAddScene() : ModelCommand("add-scene")
+    WriteTestClusterNullableEnum8() : ModelCommand("write")
     {
-        AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
-        AddArgument("SceneId", 0, UINT8_MAX, &mRequest.sceneId);
-        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
-        AddArgument("SceneName", &mRequest.sceneName);
-        // extensionFieldSets Array parsing is not supported yet
+        AddArgument("attr-name", "nullable-enum8");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
+    ~WriteTestClusterNullableEnum8()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000005) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnScenesAddSceneResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeNullableEnum8(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::app::Clusters::Scenes::Commands::AddScene::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
 };
 
-/*
- * Command GetSceneMembership
- */
-class ScenesGetSceneMembership : public ModelCommand
+class ReportTestClusterNullableEnum8 : public ModelCommand
 {
 public:
-    ScenesGetSceneMembership() : ModelCommand("get-scene-membership")
+    ReportTestClusterNullableEnum8() : ModelCommand("report")
     {
-        AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
+        AddArgument("attr-name", "nullable-enum8");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportTestClusterNullableEnum8()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000005) command (0x00000006) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnScenesGetSceneMembershipResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
-    }
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
 
-private:
-    chip::app::Clusters::Scenes::Commands::GetSceneMembership::Type mRequest;
-};
+        ReturnErrorOnFailure(cluster.ReportAttributeNullableEnum8(onReportCallback->Cancel()));
 
-/*
- * Command RecallScene
- */
-class ScenesRecallScene : public ModelCommand
-{
-public:
-    ScenesRecallScene() : ModelCommand("recall-scene")
-    {
-        AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
-        AddArgument("SceneId", 0, UINT8_MAX, &mRequest.sceneId);
-        AddArgument("TransitionTime", 0, UINT16_MAX, &mRequest.transitionTime);
-        ModelCommand::AddArguments();
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeNullableEnum8(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000005) command (0x00000005) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::Scenes::Commands::RecallScene::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command RemoveAllScenes
+ * Attribute NullableEnum16
  */
-class ScenesRemoveAllScenes : public ModelCommand
+class ReadTestClusterNullableEnum16 : public ModelCommand
 {
 public:
-    ScenesRemoveAllScenes() : ModelCommand("remove-all-scenes")
+    ReadTestClusterNullableEnum16() : ModelCommand("read")
     {
-        AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
+        AddArgument("attr-name", "nullable-enum16");
         ModelCommand::AddArguments();
     }
 
+    ~ReadTestClusterNullableEnum16()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000005) command (0x00000003) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnScenesRemoveAllScenesResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeNullableEnum16(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::Scenes::Commands::RemoveAllScenes::Type mRequest;
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command RemoveScene
- */
-class ScenesRemoveScene : public ModelCommand
+class WriteTestClusterNullableEnum16 : public ModelCommand
 {
 public:
-    ScenesRemoveScene() : ModelCommand("remove-scene")
+    WriteTestClusterNullableEnum16() : ModelCommand("write")
     {
-        AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
-        AddArgument("SceneId", 0, UINT8_MAX, &mRequest.sceneId);
+        AddArgument("attr-name", "nullable-enum16");
+        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
+    ~WriteTestClusterNullableEnum16()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000005) command (0x00000002) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnScenesRemoveSceneResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeNullableEnum16(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::app::Clusters::Scenes::Commands::RemoveScene::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint16_t mValue;
 };
 
-/*
- * Command StoreScene
- */
-class ScenesStoreScene : public ModelCommand
+class ReportTestClusterNullableEnum16 : public ModelCommand
 {
 public:
-    ScenesStoreScene() : ModelCommand("store-scene")
+    ReportTestClusterNullableEnum16() : ModelCommand("report")
     {
-        AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
-        AddArgument("SceneId", 0, UINT8_MAX, &mRequest.sceneId);
+        AddArgument("attr-name", "nullable-enum16");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportTestClusterNullableEnum16()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000005) command (0x00000004) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnScenesStoreSceneResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
-    }
+        chip::Controller::TestClusterCluster cluster;
+        cluster.Associate(device, endpointId);
 
-private:
-    chip::app::Clusters::Scenes::Commands::StoreScene::Type mRequest;
-};
+        ReturnErrorOnFailure(cluster.ReportAttributeNullableEnum16(onReportCallback->Cancel()));
 
-/*
- * Command ViewScene
- */
-class ScenesViewScene : public ModelCommand
-{
-public:
-    ScenesViewScene() : ModelCommand("view-scene")
-    {
-        AddArgument("GroupId", 0, UINT16_MAX, &mRequest.groupId);
-        AddArgument("SceneId", 0, UINT8_MAX, &mRequest.sceneId);
-        ModelCommand::AddArguments();
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeNullableEnum16(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000005) command (0x00000001) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnScenesViewSceneResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::Scenes::Commands::ViewScene::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute SceneCount
+ * Attribute NullableOctetString
  */
-class ReadScenesSceneCount : public ModelCommand
+class ReadTestClusterNullableOctetString : public ModelCommand
 {
 public:
-    ReadScenesSceneCount() : ModelCommand("read")
+    ReadTestClusterNullableOctetString() : ModelCommand("read")
     {
-        AddArgument("attr-name", "scene-count");
+        AddArgument("attr-name", "nullable-octet-string");
         ModelCommand::AddArguments();
     }
 
-    ~ReadScenesSceneCount()
+    ~ReadTestClusterNullableOctetString()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -20000,33 +39647,31 @@ class ReadScenesSceneCount : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0005) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ScenesCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeSceneCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNullableOctetString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute CurrentScene
- */
-class ReadScenesCurrentScene : public ModelCommand
+class WriteTestClusterNullableOctetString : public ModelCommand
 {
 public:
-    ReadScenesCurrentScene() : ModelCommand("read")
+    WriteTestClusterNullableOctetString() : ModelCommand("write")
     {
-        AddArgument("attr-name", "current-scene");
+        AddArgument("attr-name", "nullable-octet-string");
+        AddArgument("attr-value", &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadScenesCurrentScene()
+    ~WriteTestClusterNullableOctetString()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -20034,67 +39679,87 @@ class ReadScenesCurrentScene : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0005) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ScenesCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentScene(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeNullableOctetString(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::ByteSpan mValue;
 };
 
-/*
- * Attribute CurrentGroup
- */
-class ReadScenesCurrentGroup : public ModelCommand
+class ReportTestClusterNullableOctetString : public ModelCommand
 {
 public:
-    ReadScenesCurrentGroup() : ModelCommand("read")
+    ReportTestClusterNullableOctetString() : ModelCommand("report")
     {
-        AddArgument("attr-name", "current-group");
+        AddArgument("attr-name", "nullable-octet-string");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadScenesCurrentGroup()
+    ~ReportTestClusterNullableOctetString()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0005) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ScenesCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentGroup(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeNullableOctetString(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeNullableOctetString(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                             mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute SceneValid
+ * Attribute NullableCharString
  */
-class ReadScenesSceneValid : public ModelCommand
+class ReadTestClusterNullableCharString : public ModelCommand
 {
 public:
-    ReadScenesSceneValid() : ModelCommand("read")
+    ReadTestClusterNullableCharString() : ModelCommand("read")
     {
-        AddArgument("attr-name", "scene-valid");
+        AddArgument("attr-name", "nullable-char-string");
         ModelCommand::AddArguments();
     }
 
-    ~ReadScenesSceneValid()
+    ~ReadTestClusterNullableCharString()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -20102,33 +39767,31 @@ class ReadScenesSceneValid : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0005) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ScenesCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeSceneValid(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNullableCharString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute NameSupport
- */
-class ReadScenesNameSupport : public ModelCommand
+class WriteTestClusterNullableCharString : public ModelCommand
 {
 public:
-    ReadScenesNameSupport() : ModelCommand("read")
+    WriteTestClusterNullableCharString() : ModelCommand("write")
     {
-        AddArgument("attr-name", "name-support");
+        AddArgument("attr-name", "nullable-char-string");
+        AddArgument("attr-value", &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadScenesNameSupport()
+    ~WriteTestClusterNullableCharString()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -20136,100 +39799,87 @@ class ReadScenesNameSupport : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0005) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ScenesCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNameSupport(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeNullableCharString(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::CharSpan mValue;
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadScenesClusterRevision : public ModelCommand
+class ReportTestClusterNullableCharString : public ModelCommand
 {
 public:
-    ReadScenesClusterRevision() : ModelCommand("read")
+    ReportTestClusterNullableCharString() : ModelCommand("report")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "nullable-char-string");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadScenesClusterRevision()
+    ~ReportTestClusterNullableCharString()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0005) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ScenesCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
-    }
-
-private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-};
 
-/*----------------------------------------------------------------------------*\
-| Cluster SoftwareDiagnostics                                         | 0x0034 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * ResetWatermarks                                                   |   0x00 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * ThreadMetrics                                                     | 0x0000 |
-| * CurrentHeapFree                                                   | 0x0001 |
-| * CurrentHeapUsed                                                   | 0x0002 |
-| * CurrentHeapHighWatermark                                          | 0x0003 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
+        ReturnErrorOnFailure(cluster.ReportAttributeNullableCharString(onReportCallback->Cancel()));
 
-/*
- * Command ResetWatermarks
- */
-class SoftwareDiagnosticsResetWatermarks : public ModelCommand
-{
-public:
-    SoftwareDiagnosticsResetWatermarks() : ModelCommand("reset-watermarks") { ModelCommand::AddArguments(); }
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeNullableCharString(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                            mMaxInterval);
+    }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000034) command (0x00000000) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::SoftwareDiagnostics::Commands::ResetWatermarks::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ThreadMetrics
+ * Attribute ClusterRevision
  */
-class ReadSoftwareDiagnosticsThreadMetrics : public ModelCommand
+class ReadTestClusterClusterRevision : public ModelCommand
 {
 public:
-    ReadSoftwareDiagnosticsThreadMetrics() : ModelCommand("read")
+    ReadTestClusterClusterRevision() : ModelCommand("read")
     {
-        AddArgument("attr-name", "thread-metrics");
+        AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
-    ~ReadSoftwareDiagnosticsThreadMetrics()
+    ~ReadTestClusterClusterRevision()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -20237,217 +39887,236 @@ class ReadSoftwareDiagnosticsThreadMetrics : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0034) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::SoftwareDiagnosticsCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeThreadMetrics(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<SoftwareDiagnosticsThreadMetricsListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<SoftwareDiagnosticsThreadMetricsListAttributeCallback>(
-            OnSoftwareDiagnosticsThreadMetricsListAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute CurrentHeapFree
- */
-class ReadSoftwareDiagnosticsCurrentHeapFree : public ModelCommand
+class ReportTestClusterClusterRevision : public ModelCommand
 {
 public:
-    ReadSoftwareDiagnosticsCurrentHeapFree() : ModelCommand("read")
+    ReportTestClusterClusterRevision() : ModelCommand("report")
     {
-        AddArgument("attr-name", "current-heap-free");
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadSoftwareDiagnosticsCurrentHeapFree()
+    ~ReportTestClusterClusterRevision()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0034) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::SoftwareDiagnosticsCluster cluster;
+        chip::Controller::TestClusterCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentHeapFree(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
+/*----------------------------------------------------------------------------*\
+| Cluster Thermostat                                                  | 0x0201 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * ClearWeeklySchedule                                               |   0x03 |
+| * GetRelayStatusLog                                                 |   0x04 |
+| * GetWeeklySchedule                                                 |   0x02 |
+| * SetWeeklySchedule                                                 |   0x01 |
+| * SetpointRaiseLower                                                |   0x00 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * LocalTemperature                                                  | 0x0000 |
+| * AbsMinHeatSetpointLimit                                           | 0x0003 |
+| * AbsMaxHeatSetpointLimit                                           | 0x0004 |
+| * AbsMinCoolSetpointLimit                                           | 0x0005 |
+| * AbsMaxCoolSetpointLimit                                           | 0x0006 |
+| * OccupiedCoolingSetpoint                                           | 0x0011 |
+| * OccupiedHeatingSetpoint                                           | 0x0012 |
+| * MinHeatSetpointLimit                                              | 0x0015 |
+| * MaxHeatSetpointLimit                                              | 0x0016 |
+| * MinCoolSetpointLimit                                              | 0x0017 |
+| * MaxCoolSetpointLimit                                              | 0x0018 |
+| * MinSetpointDeadBand                                               | 0x0019 |
+| * ControlSequenceOfOperation                                        | 0x001B |
+| * SystemMode                                                        | 0x001C |
+| * StartOfWeek                                                       | 0x0020 |
+| * NumberOfWeeklyTransitions                                         | 0x0021 |
+| * NumberOfDailyTransitions                                          | 0x0022 |
+| * FeatureMap                                                        | 0xFFFC |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
 /*
- * Attribute CurrentHeapUsed
+ * Command ClearWeeklySchedule
  */
-class ReadSoftwareDiagnosticsCurrentHeapUsed : public ModelCommand
+class ThermostatClearWeeklySchedule : public ModelCommand
 {
 public:
-    ReadSoftwareDiagnosticsCurrentHeapUsed() : ModelCommand("read")
-    {
-        AddArgument("attr-name", "current-heap-used");
-        ModelCommand::AddArguments();
-    }
+    ThermostatClearWeeklySchedule() : ModelCommand("clear-weekly-schedule") { ModelCommand::AddArguments(); }
 
-    ~ReadSoftwareDiagnosticsCurrentHeapUsed()
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        delete onSuccessCallback;
-        delete onFailureCallback;
+        ChipLogProgress(chipTool, "Sending cluster (0x00000201) command (0x00000003) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
+private:
+    chip::app::Clusters::Thermostat::Commands::ClearWeeklySchedule::Type mRequest;
+};
+
+/*
+ * Command GetRelayStatusLog
+ */
+class ThermostatGetRelayStatusLog : public ModelCommand
+{
+public:
+    ThermostatGetRelayStatusLog() : ModelCommand("get-relay-status-log") { ModelCommand::AddArguments(); }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0034) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000201) command (0x00000004) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::SoftwareDiagnosticsCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentHeapUsed(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::Thermostat::Commands::GetRelayStatusLog::Type mRequest;
 };
 
 /*
- * Attribute CurrentHeapHighWatermark
+ * Command GetWeeklySchedule
  */
-class ReadSoftwareDiagnosticsCurrentHeapHighWatermark : public ModelCommand
+class ThermostatGetWeeklySchedule : public ModelCommand
 {
 public:
-    ReadSoftwareDiagnosticsCurrentHeapHighWatermark() : ModelCommand("read")
+    ThermostatGetWeeklySchedule() : ModelCommand("get-weekly-schedule")
     {
-        AddArgument("attr-name", "current-heap-high-watermark");
+        AddArgument("DaysToReturn", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<chip::app::Clusters::Thermostat::DayOfWeek> *>(&mRequest.daysToReturn));
+        AddArgument(
+            "ModeToReturn", 0, UINT8_MAX,
+            reinterpret_cast<std::underlying_type_t<chip::app::Clusters::Thermostat::ModeForSequence> *>(&mRequest.modeToReturn));
         ModelCommand::AddArguments();
     }
 
-    ~ReadSoftwareDiagnosticsCurrentHeapHighWatermark()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0034) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000201) command (0x00000002) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::SoftwareDiagnosticsCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentHeapHighWatermark(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::Thermostat::Commands::GetWeeklySchedule::Type mRequest;
 };
 
 /*
- * Attribute ClusterRevision
+ * Command SetWeeklySchedule
  */
-class ReadSoftwareDiagnosticsClusterRevision : public ModelCommand
+class ThermostatSetWeeklySchedule : public ModelCommand
 {
 public:
-    ReadSoftwareDiagnosticsClusterRevision() : ModelCommand("read")
+    ThermostatSetWeeklySchedule() : ModelCommand("set-weekly-schedule")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("NumberOfTransitionsForSequence", 0, UINT8_MAX, &mRequest.numberOfTransitionsForSequence);
+        AddArgument(
+            "DayOfWeekForSequence", 0, UINT8_MAX,
+            reinterpret_cast<std::underlying_type_t<chip::app::Clusters::Thermostat::DayOfWeek> *>(&mRequest.dayOfWeekForSequence));
+        AddArgument("ModeForSequence", 0, UINT8_MAX,
+                    reinterpret_cast<std::underlying_type_t<chip::app::Clusters::Thermostat::ModeForSequence> *>(
+                        &mRequest.modeForSequence));
+        // payload Array parsing is not supported yet
         ModelCommand::AddArguments();
     }
 
-    ~ReadSoftwareDiagnosticsClusterRevision()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0034) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000201) command (0x00000001) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::SoftwareDiagnosticsCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::Thermostat::Commands::SetWeeklySchedule::Type mRequest;
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster Switch                                                      | 0x003B |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * NumberOfPositions                                                 | 0x0000 |
-| * CurrentPosition                                                   | 0x0001 |
-| * MultiPressMax                                                     | 0x0002 |
-| * FeatureMap                                                        | 0xFFFC |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
 /*
- * Attribute NumberOfPositions
+ * Command SetpointRaiseLower
  */
-class ReadSwitchNumberOfPositions : public ModelCommand
+class ThermostatSetpointRaiseLower : public ModelCommand
 {
 public:
-    ReadSwitchNumberOfPositions() : ModelCommand("read")
+    ThermostatSetpointRaiseLower() : ModelCommand("setpoint-raise-lower")
     {
-        AddArgument("attr-name", "number-of-positions");
+        AddArgument("Mode", 0, UINT8_MAX, reinterpret_cast<std::underlying_type_t<decltype(mRequest.mode)> *>(&mRequest.mode));
+        AddArgument("Amount", INT8_MIN, INT8_MAX, &mRequest.amount);
         ModelCommand::AddArguments();
     }
 
-    ~ReadSwitchNumberOfPositions()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x003B) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000201) command (0x00000000) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::SwitchCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNumberOfPositions(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::Thermostat::Commands::SetpointRaiseLower::Type mRequest;
 };
 
 /*
- * Attribute CurrentPosition
+ * Attribute LocalTemperature
  */
-class ReadSwitchCurrentPosition : public ModelCommand
+class ReadThermostatLocalTemperature : public ModelCommand
 {
 public:
-    ReadSwitchCurrentPosition() : ModelCommand("read")
+    ReadThermostatLocalTemperature() : ModelCommand("read")
     {
-        AddArgument("attr-name", "current-position");
+        AddArgument("attr-name", "local-temperature");
         ModelCommand::AddArguments();
     }
 
-    ~ReadSwitchCurrentPosition()
+    ~ReadThermostatLocalTemperature()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -20455,33 +40124,33 @@ class ReadSwitchCurrentPosition : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x003B) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::SwitchCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentPosition(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeLocalTemperature(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class ReportSwitchCurrentPosition : public ModelCommand
+class ReportThermostatLocalTemperature : public ModelCommand
 {
 public:
-    ReportSwitchCurrentPosition() : ModelCommand("report")
+    ReportThermostatLocalTemperature() : ModelCommand("report")
     {
-        AddArgument("attr-name", "current-position");
+        AddArgument("attr-name", "local-temperature");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportSwitchCurrentPosition()
+    ~ReportThermostatLocalTemperature()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -20491,15 +40160,15 @@ class ReportSwitchCurrentPosition : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x003B) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::SwitchCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeCurrentPosition(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeLocalTemperature(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeCurrentPosition(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeLocalTemperature(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -20514,26 +40183,26 @@ class ReportSwitchCurrentPosition : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
     uint16_t mMinInterval;
     uint16_t mMaxInterval;
     bool mWait;
 };
 
 /*
- * Attribute MultiPressMax
+ * Attribute AbsMinHeatSetpointLimit
  */
-class ReadSwitchMultiPressMax : public ModelCommand
+class ReadThermostatAbsMinHeatSetpointLimit : public ModelCommand
 {
 public:
-    ReadSwitchMultiPressMax() : ModelCommand("read")
+    ReadThermostatAbsMinHeatSetpointLimit() : ModelCommand("read")
     {
-        AddArgument("attr-name", "multi-press-max");
+        AddArgument("attr-name", "abs-min-heat-setpoint-limit");
         ModelCommand::AddArguments();
     }
 
-    ~ReadSwitchMultiPressMax()
+    ~ReadThermostatAbsMinHeatSetpointLimit()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -20541,67 +40210,86 @@ class ReadSwitchMultiPressMax : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x003B) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::SwitchCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMultiPressMax(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeAbsMinHeatSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute FeatureMap
- */
-class ReadSwitchFeatureMap : public ModelCommand
+class ReportThermostatAbsMinHeatSetpointLimit : public ModelCommand
 {
 public:
-    ReadSwitchFeatureMap() : ModelCommand("read")
+    ReportThermostatAbsMinHeatSetpointLimit() : ModelCommand("report")
     {
-        AddArgument("attr-name", "feature-map");
+        AddArgument("attr-name", "abs-min-heat-setpoint-limit");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadSwitchFeatureMap()
+    ~ReportThermostatAbsMinHeatSetpointLimit()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x003B) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::SwitchCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeFeatureMap(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeAbsMinHeatSetpointLimit(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeAbsMinHeatSetpointLimit(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                 mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute AbsMaxHeatSetpointLimit
  */
-class ReadSwitchClusterRevision : public ModelCommand
+class ReadThermostatAbsMaxHeatSetpointLimit : public ModelCommand
 {
 public:
-    ReadSwitchClusterRevision() : ModelCommand("read")
+    ReadThermostatAbsMaxHeatSetpointLimit() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "abs-max-heat-setpoint-limit");
         ModelCommand::AddArguments();
     }
 
-    ~ReadSwitchClusterRevision()
+    ~ReadThermostatAbsMaxHeatSetpointLimit()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -20609,154 +40297,173 @@ class ReadSwitchClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x003B) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::SwitchCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeAbsMaxHeatSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster TvChannel                                                   | 0x0504 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * ChangeChannel                                                     |   0x00 |
-| * ChangeChannelByNumber                                             |   0x01 |
-| * SkipChannel                                                       |   0x02 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * TvChannelList                                                     | 0x0000 |
-| * TvChannelLineup                                                   | 0x0001 |
-| * CurrentTvChannel                                                  | 0x0002 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Command ChangeChannel
- */
-class TvChannelChangeChannel : public ModelCommand
+class ReportThermostatAbsMaxHeatSetpointLimit : public ModelCommand
 {
 public:
-    TvChannelChangeChannel() : ModelCommand("change-channel")
+    ReportThermostatAbsMaxHeatSetpointLimit() : ModelCommand("report")
     {
-        AddArgument("Match", &mRequest.match);
+        AddArgument("attr-name", "abs-max-heat-setpoint-limit");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportThermostatAbsMaxHeatSetpointLimit()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000504) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnTvChannelChangeChannelResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
-    }
+        chip::Controller::ThermostatCluster cluster;
+        cluster.Associate(device, endpointId);
 
-private:
-    chip::app::Clusters::TvChannel::Commands::ChangeChannel::Type mRequest;
-};
+        ReturnErrorOnFailure(cluster.ReportAttributeAbsMaxHeatSetpointLimit(onReportCallback->Cancel()));
 
-/*
- * Command ChangeChannelByNumber
- */
-class TvChannelChangeChannelByNumber : public ModelCommand
-{
-public:
-    TvChannelChangeChannelByNumber() : ModelCommand("change-channel-by-number")
-    {
-        AddArgument("MajorNumber", 0, UINT16_MAX, &mRequest.majorNumber);
-        AddArgument("MinorNumber", 0, UINT16_MAX, &mRequest.minorNumber);
-        ModelCommand::AddArguments();
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeAbsMaxHeatSetpointLimit(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                 mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000504) command (0x00000001) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::TvChannel::Commands::ChangeChannelByNumber::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command SkipChannel
+ * Attribute AbsMinCoolSetpointLimit
  */
-class TvChannelSkipChannel : public ModelCommand
+class ReadThermostatAbsMinCoolSetpointLimit : public ModelCommand
 {
 public:
-    TvChannelSkipChannel() : ModelCommand("skip-channel")
+    ReadThermostatAbsMinCoolSetpointLimit() : ModelCommand("read")
     {
-        AddArgument("Count", 0, UINT16_MAX, &mRequest.count);
+        AddArgument("attr-name", "abs-min-cool-setpoint-limit");
         ModelCommand::AddArguments();
     }
 
+    ~ReadThermostatAbsMinCoolSetpointLimit()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000504) command (0x00000002) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::ThermostatCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeAbsMinCoolSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::TvChannel::Commands::SkipChannel::Type mRequest;
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute TvChannelList
- */
-class ReadTvChannelTvChannelList : public ModelCommand
+class ReportThermostatAbsMinCoolSetpointLimit : public ModelCommand
 {
 public:
-    ReadTvChannelTvChannelList() : ModelCommand("read")
+    ReportThermostatAbsMinCoolSetpointLimit() : ModelCommand("report")
     {
-        AddArgument("attr-name", "tv-channel-list");
+        AddArgument("attr-name", "abs-min-cool-setpoint-limit");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadTvChannelTvChannelList()
+    ~ReportThermostatAbsMinCoolSetpointLimit()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0504) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TvChannelCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTvChannelList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeAbsMinCoolSetpointLimit(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeAbsMinCoolSetpointLimit(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                 mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<TvChannelTvChannelListListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<TvChannelTvChannelListListAttributeCallback>(OnTvChannelTvChannelListListAttributeResponse,
-                                                                                  this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute TvChannelLineup
+ * Attribute AbsMaxCoolSetpointLimit
  */
-class ReadTvChannelTvChannelLineup : public ModelCommand
+class ReadThermostatAbsMaxCoolSetpointLimit : public ModelCommand
 {
 public:
-    ReadTvChannelTvChannelLineup() : ModelCommand("read")
+    ReadThermostatAbsMaxCoolSetpointLimit() : ModelCommand("read")
     {
-        AddArgument("attr-name", "tv-channel-lineup");
+        AddArgument("attr-name", "abs-max-cool-setpoint-limit");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTvChannelTvChannelLineup()
+    ~ReadThermostatAbsMaxCoolSetpointLimit()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -20764,67 +40471,86 @@ class ReadTvChannelTvChannelLineup : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0504) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TvChannelCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTvChannelLineup(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeAbsMaxCoolSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute CurrentTvChannel
- */
-class ReadTvChannelCurrentTvChannel : public ModelCommand
+class ReportThermostatAbsMaxCoolSetpointLimit : public ModelCommand
 {
 public:
-    ReadTvChannelCurrentTvChannel() : ModelCommand("read")
+    ReportThermostatAbsMaxCoolSetpointLimit() : ModelCommand("report")
     {
-        AddArgument("attr-name", "current-tv-channel");
+        AddArgument("attr-name", "abs-max-cool-setpoint-limit");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadTvChannelCurrentTvChannel()
+    ~ReportThermostatAbsMaxCoolSetpointLimit()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0504) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TvChannelCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentTvChannel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeAbsMaxCoolSetpointLimit(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeAbsMaxCoolSetpointLimit(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                 mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute OccupiedCoolingSetpoint
  */
-class ReadTvChannelClusterRevision : public ModelCommand
+class ReadThermostatOccupiedCoolingSetpoint : public ModelCommand
 {
 public:
-    ReadTvChannelClusterRevision() : ModelCommand("read")
+    ReadThermostatOccupiedCoolingSetpoint() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "occupied-cooling-setpoint");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTvChannelClusterRevision()
+    ~ReadThermostatOccupiedCoolingSetpoint()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -20832,104 +40558,119 @@ class ReadTvChannelClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0504) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TvChannelCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeOccupiedCoolingSetpoint(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster TargetNavigator                                             | 0x0505 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * NavigateTarget                                                    |   0x00 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * TargetNavigatorList                                               | 0x0000 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Command NavigateTarget
- */
-class TargetNavigatorNavigateTarget : public ModelCommand
+class WriteThermostatOccupiedCoolingSetpoint : public ModelCommand
 {
 public:
-    TargetNavigatorNavigateTarget() : ModelCommand("navigate-target")
+    WriteThermostatOccupiedCoolingSetpoint() : ModelCommand("write")
     {
-        AddArgument("Target", 0, UINT8_MAX, &mRequest.target);
-        AddArgument("Data", &mRequest.data);
+        AddArgument("attr-name", "occupied-cooling-setpoint");
+        AddArgument("attr-value", INT16_MIN, INT16_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
+    ~WriteThermostatOccupiedCoolingSetpoint()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000505) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnTargetNavigatorNavigateTargetResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::ThermostatCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeOccupiedCoolingSetpoint(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::app::Clusters::TargetNavigator::Commands::NavigateTarget::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    int16_t mValue;
 };
 
-/*
- * Attribute TargetNavigatorList
- */
-class ReadTargetNavigatorTargetNavigatorList : public ModelCommand
+class ReportThermostatOccupiedCoolingSetpoint : public ModelCommand
 {
 public:
-    ReadTargetNavigatorTargetNavigatorList() : ModelCommand("read")
+    ReportThermostatOccupiedCoolingSetpoint() : ModelCommand("report")
     {
-        AddArgument("attr-name", "target-navigator-list");
+        AddArgument("attr-name", "occupied-cooling-setpoint");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadTargetNavigatorTargetNavigatorList()
+    ~ReportThermostatOccupiedCoolingSetpoint()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0505) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TargetNavigatorCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTargetNavigatorList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOccupiedCoolingSetpoint(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOccupiedCoolingSetpoint(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                 mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<TargetNavigatorTargetNavigatorListListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<TargetNavigatorTargetNavigatorListListAttributeCallback>(
-            OnTargetNavigatorTargetNavigatorListListAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute OccupiedHeatingSetpoint
  */
-class ReadTargetNavigatorClusterRevision : public ModelCommand
+class ReadThermostatOccupiedHeatingSetpoint : public ModelCommand
 {
 public:
-    ReadTargetNavigatorClusterRevision() : ModelCommand("read")
+    ReadThermostatOccupiedHeatingSetpoint() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "occupied-heating-setpoint");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTargetNavigatorClusterRevision()
+    ~ReadThermostatOccupiedHeatingSetpoint()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -20937,46 +40678,31 @@ class ReadTargetNavigatorClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0505) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TargetNavigatorCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeOccupiedHeatingSetpoint(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster TemperatureMeasurement                                      | 0x0402 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * MeasuredValue                                                     | 0x0000 |
-| * MinMeasuredValue                                                  | 0x0001 |
-| * MaxMeasuredValue                                                  | 0x0002 |
-| * Tolerance                                                         | 0x0003 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Attribute MeasuredValue
- */
-class ReadTemperatureMeasurementMeasuredValue : public ModelCommand
+class WriteThermostatOccupiedHeatingSetpoint : public ModelCommand
 {
 public:
-    ReadTemperatureMeasurementMeasuredValue() : ModelCommand("read")
+    WriteThermostatOccupiedHeatingSetpoint() : ModelCommand("write")
     {
-        AddArgument("attr-name", "measured-value");
+        AddArgument("attr-name", "occupied-heating-setpoint");
+        AddArgument("attr-value", INT16_MIN, INT16_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadTemperatureMeasurementMeasuredValue()
+    ~WriteThermostatOccupiedHeatingSetpoint()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -20984,33 +40710,34 @@ class ReadTemperatureMeasurementMeasuredValue : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0402) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TemperatureMeasurementCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeOccupiedHeatingSetpoint(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    int16_t mValue;
 };
 
-class ReportTemperatureMeasurementMeasuredValue : public ModelCommand
+class ReportThermostatOccupiedHeatingSetpoint : public ModelCommand
 {
 public:
-    ReportTemperatureMeasurementMeasuredValue() : ModelCommand("report")
+    ReportThermostatOccupiedHeatingSetpoint() : ModelCommand("report")
     {
-        AddArgument("attr-name", "measured-value");
+        AddArgument("attr-name", "occupied-heating-setpoint");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportTemperatureMeasurementMeasuredValue()
+    ~ReportThermostatOccupiedHeatingSetpoint()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -21020,15 +40747,16 @@ class ReportTemperatureMeasurementMeasuredValue : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0402) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TemperatureMeasurementCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeMeasuredValue(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeOccupiedHeatingSetpoint(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeMeasuredValue(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeOccupiedHeatingSetpoint(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                 mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -21051,52 +40779,18 @@ class ReportTemperatureMeasurementMeasuredValue : public ModelCommand
 };
 
 /*
- * Attribute MinMeasuredValue
- */
-class ReadTemperatureMeasurementMinMeasuredValue : public ModelCommand
-{
-public:
-    ReadTemperatureMeasurementMinMeasuredValue() : ModelCommand("read")
-    {
-        AddArgument("attr-name", "min-measured-value");
-        ModelCommand::AddArguments();
-    }
-
-    ~ReadTemperatureMeasurementMinMeasuredValue()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
-    {
-        ChipLogProgress(chipTool, "Sending cluster (0x0402) command (0x00) on endpoint %" PRIu8, endpointId);
-
-        chip::Controller::TemperatureMeasurementCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMinMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
-    }
-
-private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-};
-
-/*
- * Attribute MaxMeasuredValue
+ * Attribute MinHeatSetpointLimit
  */
-class ReadTemperatureMeasurementMaxMeasuredValue : public ModelCommand
+class ReadThermostatMinHeatSetpointLimit : public ModelCommand
 {
 public:
-    ReadTemperatureMeasurementMaxMeasuredValue() : ModelCommand("read")
+    ReadThermostatMinHeatSetpointLimit() : ModelCommand("read")
     {
-        AddArgument("attr-name", "max-measured-value");
+        AddArgument("attr-name", "min-heat-setpoint-limit");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTemperatureMeasurementMaxMeasuredValue()
+    ~ReadThermostatMinHeatSetpointLimit()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -21104,11 +40798,11 @@ class ReadTemperatureMeasurementMaxMeasuredValue : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0402) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TemperatureMeasurementCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMaxMeasuredValue(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeMinHeatSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -21118,19 +40812,17 @@ class ReadTemperatureMeasurementMaxMeasuredValue : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute Tolerance
- */
-class ReadTemperatureMeasurementTolerance : public ModelCommand
+class WriteThermostatMinHeatSetpointLimit : public ModelCommand
 {
 public:
-    ReadTemperatureMeasurementTolerance() : ModelCommand("read")
+    WriteThermostatMinHeatSetpointLimit() : ModelCommand("write")
     {
-        AddArgument("attr-name", "tolerance");
+        AddArgument("attr-name", "min-heat-setpoint-limit");
+        AddArgument("attr-value", INT16_MIN, INT16_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadTemperatureMeasurementTolerance()
+    ~WriteThermostatMinHeatSetpointLimit()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -21138,33 +40830,34 @@ class ReadTemperatureMeasurementTolerance : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0402) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TemperatureMeasurementCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTolerance(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeMinHeatSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    int16_t mValue;
 };
 
-class ReportTemperatureMeasurementTolerance : public ModelCommand
+class ReportThermostatMinHeatSetpointLimit : public ModelCommand
 {
 public:
-    ReportTemperatureMeasurementTolerance() : ModelCommand("report")
+    ReportThermostatMinHeatSetpointLimit() : ModelCommand("report")
     {
-        AddArgument("attr-name", "tolerance");
+        AddArgument("attr-name", "min-heat-setpoint-limit");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportTemperatureMeasurementTolerance()
+    ~ReportThermostatMinHeatSetpointLimit()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -21174,15 +40867,16 @@ class ReportTemperatureMeasurementTolerance : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0402) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TemperatureMeasurementCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeTolerance(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeMinHeatSetpointLimit(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeTolerance(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeMinHeatSetpointLimit(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                              mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -21197,26 +40891,26 @@ class ReportTemperatureMeasurementTolerance : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
     uint16_t mMinInterval;
     uint16_t mMaxInterval;
     bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute MaxHeatSetpointLimit
  */
-class ReadTemperatureMeasurementClusterRevision : public ModelCommand
+class ReadThermostatMaxHeatSetpointLimit : public ModelCommand
 {
 public:
-    ReadTemperatureMeasurementClusterRevision() : ModelCommand("read")
+    ReadThermostatMaxHeatSetpointLimit() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "max-heat-setpoint-limit");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTemperatureMeasurementClusterRevision()
+    ~ReadThermostatMaxHeatSetpointLimit()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -21224,376 +40918,359 @@ class ReadTemperatureMeasurementClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0402) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TemperatureMeasurementCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeMaxHeatSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster TestCluster                                                 | 0x050F |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * Test                                                              |   0x00 |
-| * TestAddArguments                                                  |   0x04 |
-| * TestEnumsRequest                                                  |   0x0E |
-| * TestListInt8UArgumentRequest                                      |   0x0A |
-| * TestListInt8UReverseRequest                                       |   0x0D |
-| * TestListStructArgumentRequest                                     |   0x09 |
-| * TestNotHandled                                                    |   0x01 |
-| * TestNullableOptionalRequest                                       |   0x0F |
-| * TestSpecific                                                      |   0x02 |
-| * TestStructArgumentRequest                                         |   0x07 |
-| * TestUnknownCommand                                                |   0x03 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * Boolean                                                           | 0x0000 |
-| * Bitmap8                                                           | 0x0001 |
-| * Bitmap16                                                          | 0x0002 |
-| * Bitmap32                                                          | 0x0003 |
-| * Bitmap64                                                          | 0x0004 |
-| * Int8u                                                             | 0x0005 |
-| * Int16u                                                            | 0x0006 |
-| * Int32u                                                            | 0x0008 |
-| * Int64u                                                            | 0x000C |
-| * Int8s                                                             | 0x000D |
-| * Int16s                                                            | 0x000E |
-| * Int32s                                                            | 0x0010 |
-| * Int64s                                                            | 0x0014 |
-| * Enum8                                                             | 0x0015 |
-| * Enum16                                                            | 0x0016 |
-| * OctetString                                                       | 0x0019 |
-| * ListInt8u                                                         | 0x001A |
-| * ListOctetString                                                   | 0x001B |
-| * ListStructOctetString                                             | 0x001C |
-| * LongOctetString                                                   | 0x001D |
-| * CharString                                                        | 0x001E |
-| * LongCharString                                                    | 0x001F |
-| * EpochUs                                                           | 0x0020 |
-| * EpochS                                                            | 0x0021 |
-| * VendorId                                                          | 0x0022 |
-| * ListNullablesAndOptionalsStruct                                   | 0x0023 |
-| * Unsupported                                                       | 0x00FF |
-| * NullableBoolean                                                   | 0x8000 |
-| * NullableBitmap8                                                   | 0x8001 |
-| * NullableBitmap16                                                  | 0x8002 |
-| * NullableBitmap32                                                  | 0x8003 |
-| * NullableBitmap64                                                  | 0x8004 |
-| * NullableInt8u                                                     | 0x8005 |
-| * NullableInt16u                                                    | 0x8006 |
-| * NullableInt32u                                                    | 0x8008 |
-| * NullableInt64u                                                    | 0x800C |
-| * NullableInt8s                                                     | 0x800D |
-| * NullableInt16s                                                    | 0x800E |
-| * NullableInt32s                                                    | 0x8010 |
-| * NullableInt64s                                                    | 0x8014 |
-| * NullableEnum8                                                     | 0x8015 |
-| * NullableEnum16                                                    | 0x8016 |
-| * NullableOctetString                                               | 0x8019 |
-| * NullableCharString                                                | 0x801E |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Command Test
- */
-class TestClusterTest : public ModelCommand
+class WriteThermostatMaxHeatSetpointLimit : public ModelCommand
 {
 public:
-    TestClusterTest() : ModelCommand("test") { ModelCommand::AddArguments(); }
-
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    WriteThermostatMaxHeatSetpointLimit() : ModelCommand("write")
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x00000000) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        AddArgument("attr-name", "max-heat-setpoint-limit");
+        AddArgument("attr-value", INT16_MIN, INT16_MAX, &mValue);
+        ModelCommand::AddArguments();
     }
 
-private:
-    chip::app::Clusters::TestCluster::Commands::Test::Type mRequest;
-};
-
-/*
- * Command TestAddArguments
- */
-class TestClusterTestAddArguments : public ModelCommand
-{
-public:
-    TestClusterTestAddArguments() : ModelCommand("test-add-arguments")
+    ~WriteThermostatMaxHeatSetpointLimit()
     {
-        AddArgument("Arg1", 0, UINT8_MAX, &mRequest.arg1);
-        AddArgument("Arg2", 0, UINT8_MAX, &mRequest.arg2);
-        ModelCommand::AddArguments();
+        delete onSuccessCallback;
+        delete onFailureCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x00000004) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnTestClusterTestAddArgumentsResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::ThermostatCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeMaxHeatSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::app::Clusters::TestCluster::Commands::TestAddArguments::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    int16_t mValue;
 };
 
-/*
- * Command TestEnumsRequest
- */
-class TestClusterTestEnumsRequest : public ModelCommand
+class ReportThermostatMaxHeatSetpointLimit : public ModelCommand
 {
 public:
-    TestClusterTestEnumsRequest() : ModelCommand("test-enums-request")
+    ReportThermostatMaxHeatSetpointLimit() : ModelCommand("report")
     {
-        AddArgument("Arg1", 0, UINT16_MAX, &mRequest.arg1);
-        AddArgument("Arg2", 0, UINT8_MAX, reinterpret_cast<std::underlying_type_t<decltype(mRequest.arg2)> *>(&mRequest.arg2));
+        AddArgument("attr-name", "max-heat-setpoint-limit");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
-    {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x0000000E) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnTestClusterTestEnumsResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
-    }
-
-private:
-    chip::app::Clusters::TestCluster::Commands::TestEnumsRequest::Type mRequest;
-};
-
-/*
- * Command TestListInt8UArgumentRequest
- */
-class TestClusterTestListInt8UArgumentRequest : public ModelCommand
-{
-public:
-    TestClusterTestListInt8UArgumentRequest() : ModelCommand("test-list-int8uargument-request")
+    ~ReportThermostatMaxHeatSetpointLimit()
     {
-        // arg1 Array parsing is not supported yet
-        ModelCommand::AddArguments();
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x0000000A) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnTestClusterBooleanResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
-    }
+        chip::Controller::ThermostatCluster cluster;
+        cluster.Associate(device, endpointId);
 
-private:
-    chip::app::Clusters::TestCluster::Commands::TestListInt8UArgumentRequest::Type mRequest;
-};
+        ReturnErrorOnFailure(cluster.ReportAttributeMaxHeatSetpointLimit(onReportCallback->Cancel()));
 
-/*
- * Command TestListInt8UReverseRequest
- */
-class TestClusterTestListInt8UReverseRequest : public ModelCommand
-{
-public:
-    TestClusterTestListInt8UReverseRequest() : ModelCommand("test-list-int8ureverse-request")
-    {
-        // arg1 Array parsing is not supported yet
-        ModelCommand::AddArguments();
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMaxHeatSetpointLimit(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                              mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x0000000D) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnTestClusterTestListInt8UReverseResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::TestCluster::Commands::TestListInt8UReverseRequest::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command TestListStructArgumentRequest
+ * Attribute MinCoolSetpointLimit
  */
-class TestClusterTestListStructArgumentRequest : public ModelCommand
+class ReadThermostatMinCoolSetpointLimit : public ModelCommand
 {
 public:
-    TestClusterTestListStructArgumentRequest() : ModelCommand("test-list-struct-argument-request")
+    ReadThermostatMinCoolSetpointLimit() : ModelCommand("read")
     {
-        // arg1 Array parsing is not supported yet
+        AddArgument("attr-name", "min-cool-setpoint-limit");
         ModelCommand::AddArguments();
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    ~ReadThermostatMinCoolSetpointLimit()
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x00000009) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnTestClusterBooleanResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
-    }
-
-private:
-    chip::app::Clusters::TestCluster::Commands::TestListStructArgumentRequest::Type mRequest;
-};
-
-/*
- * Command TestNotHandled
- */
-class TestClusterTestNotHandled : public ModelCommand
-{
-public:
-    TestClusterTestNotHandled() : ModelCommand("test-not-handled") { ModelCommand::AddArguments(); }
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x00000001) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::ThermostatCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMinCoolSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::TestCluster::Commands::TestNotHandled::Type mRequest;
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command TestNullableOptionalRequest
- */
-class TestClusterTestNullableOptionalRequest : public ModelCommand
+class WriteThermostatMinCoolSetpointLimit : public ModelCommand
 {
 public:
-    TestClusterTestNullableOptionalRequest() : ModelCommand("test-nullable-optional-request")
+    WriteThermostatMinCoolSetpointLimit() : ModelCommand("write")
     {
-        AddArgument("Arg1", 0, UINT8_MAX, &mRequest.arg1);
+        AddArgument("attr-name", "min-cool-setpoint-limit");
+        AddArgument("attr-value", INT16_MIN, INT16_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
+    ~WriteThermostatMinCoolSetpointLimit()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x0000000F) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnTestClusterTestNullableOptionalResponseSuccess, OnDefaultFailure,
-                                               endpointId, mRequest);
+        chip::Controller::ThermostatCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeMinCoolSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::app::Clusters::TestCluster::Commands::TestNullableOptionalRequest::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    int16_t mValue;
 };
 
-/*
- * Command TestSpecific
- */
-class TestClusterTestSpecific : public ModelCommand
+class ReportThermostatMinCoolSetpointLimit : public ModelCommand
 {
 public:
-    TestClusterTestSpecific() : ModelCommand("test-specific") { ModelCommand::AddArguments(); }
+    ReportThermostatMinCoolSetpointLimit() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "min-cool-setpoint-limit");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportThermostatMinCoolSetpointLimit()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x00000002) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnTestClusterTestSpecificResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        chip::Controller::ThermostatCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMinCoolSetpointLimit(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMinCoolSetpointLimit(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                              mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::TestCluster::Commands::TestSpecific::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command TestStructArgumentRequest
+ * Attribute MaxCoolSetpointLimit
  */
-class TestClusterTestStructArgumentRequest : public ModelCommand
+class ReadThermostatMaxCoolSetpointLimit : public ModelCommand
 {
 public:
-    TestClusterTestStructArgumentRequest() : ModelCommand("test-struct-argument-request")
+    ReadThermostatMaxCoolSetpointLimit() : ModelCommand("read")
     {
-        // arg1 Struct parsing is not supported yet
+        AddArgument("attr-name", "max-cool-setpoint-limit");
         ModelCommand::AddArguments();
     }
 
+    ~ReadThermostatMaxCoolSetpointLimit()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x00000007) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnTestClusterBooleanResponseSuccess, OnDefaultFailure, endpointId,
-                                               mRequest);
+        chip::Controller::ThermostatCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeMaxCoolSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::TestCluster::Commands::TestStructArgumentRequest::Type mRequest;
+    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command TestUnknownCommand
- */
-class TestClusterTestUnknownCommand : public ModelCommand
+class WriteThermostatMaxCoolSetpointLimit : public ModelCommand
 {
 public:
-    TestClusterTestUnknownCommand() : ModelCommand("test-unknown-command") { ModelCommand::AddArguments(); }
+    WriteThermostatMaxCoolSetpointLimit() : ModelCommand("write")
+    {
+        AddArgument("attr-name", "max-cool-setpoint-limit");
+        AddArgument("attr-value", INT16_MIN, INT16_MAX, &mValue);
+        ModelCommand::AddArguments();
+    }
+
+    ~WriteThermostatMaxCoolSetpointLimit()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0000050F) command (0x00000003) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::ThermostatCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.WriteAttributeMaxCoolSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::app::Clusters::TestCluster::Commands::TestUnknownCommand::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    int16_t mValue;
 };
 
-/*
- * Attribute Boolean
- */
-class ReadTestClusterBoolean : public ModelCommand
+class ReportThermostatMaxCoolSetpointLimit : public ModelCommand
 {
 public:
-    ReadTestClusterBoolean() : ModelCommand("read")
+    ReportThermostatMaxCoolSetpointLimit() : ModelCommand("report")
     {
-        AddArgument("attr-name", "boolean");
+        AddArgument("attr-name", "max-cool-setpoint-limit");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterBoolean()
+    ~ReportThermostatMaxCoolSetpointLimit()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeBoolean(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMaxCoolSetpointLimit(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMaxCoolSetpointLimit(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                              mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-class WriteTestClusterBoolean : public ModelCommand
+/*
+ * Attribute MinSetpointDeadBand
+ */
+class ReadThermostatMinSetpointDeadBand : public ModelCommand
 {
 public:
-    WriteTestClusterBoolean() : ModelCommand("write")
+    ReadThermostatMinSetpointDeadBand() : ModelCommand("read")
     {
-        AddArgument("attr-name", "boolean");
-        AddArgument("attr-value", 0, 1, &mValue);
+        AddArgument("attr-name", "min-setpoint-dead-band");
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterBoolean()
+    ~ReadThermostatMinSetpointDeadBand()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -21601,34 +41278,31 @@ class WriteTestClusterBoolean : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeBoolean(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return cluster.ReadAttributeMinSetpointDeadBand(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<Int8sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8sAttributeCallback>(OnInt8sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    bool mValue;
 };
 
-/*
- * Attribute Bitmap8
- */
-class ReadTestClusterBitmap8 : public ModelCommand
+class WriteThermostatMinSetpointDeadBand : public ModelCommand
 {
 public:
-    ReadTestClusterBitmap8() : ModelCommand("read")
+    WriteThermostatMinSetpointDeadBand() : ModelCommand("write")
     {
-        AddArgument("attr-name", "bitmap8");
+        AddArgument("attr-name", "min-setpoint-dead-band");
+        AddArgument("attr-value", INT8_MIN, INT8_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterBitmap8()
+    ~WriteThermostatMinSetpointDeadBand()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -21636,66 +41310,87 @@ class ReadTestClusterBitmap8 : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeBitmap8(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeMinSetpointDeadBand(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    int8_t mValue;
 };
 
-class WriteTestClusterBitmap8 : public ModelCommand
+class ReportThermostatMinSetpointDeadBand : public ModelCommand
 {
 public:
-    WriteTestClusterBitmap8() : ModelCommand("write")
+    ReportThermostatMinSetpointDeadBand() : ModelCommand("report")
     {
-        AddArgument("attr-name", "bitmap8");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "min-setpoint-dead-band");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterBitmap8()
+    ~ReportThermostatMinSetpointDeadBand()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeBitmap8(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMinSetpointDeadBand(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMinSetpointDeadBand(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                             mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
+    chip::Callback::Callback<Int8sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8sAttributeCallback>(OnInt8sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute Bitmap16
+ * Attribute ControlSequenceOfOperation
  */
-class ReadTestClusterBitmap16 : public ModelCommand
+class ReadThermostatControlSequenceOfOperation : public ModelCommand
 {
 public:
-    ReadTestClusterBitmap16() : ModelCommand("read")
+    ReadThermostatControlSequenceOfOperation() : ModelCommand("read")
     {
-        AddArgument("attr-name", "bitmap16");
+        AddArgument("attr-name", "control-sequence-of-operation");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterBitmap16()
+    ~ReadThermostatControlSequenceOfOperation()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -21703,31 +41398,31 @@ class ReadTestClusterBitmap16 : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeBitmap16(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeControlSequenceOfOperation(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterBitmap16 : public ModelCommand
+class WriteThermostatControlSequenceOfOperation : public ModelCommand
 {
 public:
-    WriteTestClusterBitmap16() : ModelCommand("write")
+    WriteThermostatControlSequenceOfOperation() : ModelCommand("write")
     {
-        AddArgument("attr-name", "bitmap16");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "control-sequence-of-operation");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterBitmap16()
+    ~WriteThermostatControlSequenceOfOperation()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -21735,11 +41430,11 @@ class WriteTestClusterBitmap16 : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeBitmap16(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return cluster.WriteAttributeControlSequenceOfOperation(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
@@ -21747,54 +41442,75 @@ class WriteTestClusterBitmap16 : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
+    uint8_t mValue;
 };
 
-/*
- * Attribute Bitmap32
- */
-class ReadTestClusterBitmap32 : public ModelCommand
+class ReportThermostatControlSequenceOfOperation : public ModelCommand
 {
 public:
-    ReadTestClusterBitmap32() : ModelCommand("read")
+    ReportThermostatControlSequenceOfOperation() : ModelCommand("report")
     {
-        AddArgument("attr-name", "bitmap32");
+        AddArgument("attr-name", "control-sequence-of-operation");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterBitmap32()
+    ~ReportThermostatControlSequenceOfOperation()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeBitmap32(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeControlSequenceOfOperation(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeControlSequenceOfOperation(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                    mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-class WriteTestClusterBitmap32 : public ModelCommand
+/*
+ * Attribute SystemMode
+ */
+class ReadThermostatSystemMode : public ModelCommand
 {
 public:
-    WriteTestClusterBitmap32() : ModelCommand("write")
+    ReadThermostatSystemMode() : ModelCommand("read")
     {
-        AddArgument("attr-name", "bitmap32");
-        AddArgument("attr-value", 0, UINT32_MAX, &mValue);
+        AddArgument("attr-name", "system-mode");
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterBitmap32()
+    ~ReadThermostatSystemMode()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -21802,34 +41518,31 @@ class WriteTestClusterBitmap32 : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeBitmap32(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return cluster.ReadAttributeSystemMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint32_t mValue;
 };
 
-/*
- * Attribute Bitmap64
- */
-class ReadTestClusterBitmap64 : public ModelCommand
+class WriteThermostatSystemMode : public ModelCommand
 {
 public:
-    ReadTestClusterBitmap64() : ModelCommand("read")
+    WriteThermostatSystemMode() : ModelCommand("write")
     {
-        AddArgument("attr-name", "bitmap64");
+        AddArgument("attr-name", "system-mode");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterBitmap64()
+    ~WriteThermostatSystemMode()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -21837,66 +41550,86 @@ class ReadTestClusterBitmap64 : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeBitmap64(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeSystemMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
 };
 
-class WriteTestClusterBitmap64 : public ModelCommand
+class ReportThermostatSystemMode : public ModelCommand
 {
 public:
-    WriteTestClusterBitmap64() : ModelCommand("write")
+    ReportThermostatSystemMode() : ModelCommand("report")
     {
-        AddArgument("attr-name", "bitmap64");
-        AddArgument("attr-value", 0, UINT64_MAX, &mValue);
+        AddArgument("attr-name", "system-mode");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterBitmap64()
+    ~ReportThermostatSystemMode()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeBitmap64(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeSystemMode(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeSystemMode(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint64_t mValue;
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute Int8u
+ * Attribute StartOfWeek
  */
-class ReadTestClusterInt8u : public ModelCommand
+class ReadThermostatStartOfWeek : public ModelCommand
 {
 public:
-    ReadTestClusterInt8u() : ModelCommand("read")
+    ReadThermostatStartOfWeek() : ModelCommand("read")
     {
-        AddArgument("attr-name", "int8u");
+        AddArgument("attr-name", "start-of-week");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterInt8u()
+    ~ReadThermostatStartOfWeek()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -21904,11 +41637,11 @@ class ReadTestClusterInt8u : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeInt8u(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeStartOfWeek(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -21918,52 +41651,71 @@ class ReadTestClusterInt8u : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterInt8u : public ModelCommand
+class ReportThermostatStartOfWeek : public ModelCommand
 {
 public:
-    WriteTestClusterInt8u() : ModelCommand("write")
+    ReportThermostatStartOfWeek() : ModelCommand("report")
     {
-        AddArgument("attr-name", "int8u");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "start-of-week");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterInt8u()
+    ~ReportThermostatStartOfWeek()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeInt8u(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeStartOfWeek(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeStartOfWeek(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute Int16u
+ * Attribute NumberOfWeeklyTransitions
  */
-class ReadTestClusterInt16u : public ModelCommand
+class ReadThermostatNumberOfWeeklyTransitions : public ModelCommand
 {
 public:
-    ReadTestClusterInt16u() : ModelCommand("read")
+    ReadThermostatNumberOfWeeklyTransitions() : ModelCommand("read")
     {
-        AddArgument("attr-name", "int16u");
+        AddArgument("attr-name", "number-of-weekly-transitions");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterInt16u()
+    ~ReadThermostatNumberOfWeeklyTransitions()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -21971,66 +41723,86 @@ class ReadTestClusterInt16u : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeInt16u(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNumberOfWeeklyTransitions(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterInt16u : public ModelCommand
+class ReportThermostatNumberOfWeeklyTransitions : public ModelCommand
 {
 public:
-    WriteTestClusterInt16u() : ModelCommand("write")
+    ReportThermostatNumberOfWeeklyTransitions() : ModelCommand("report")
     {
-        AddArgument("attr-name", "int16u");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "number-of-weekly-transitions");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterInt16u()
+    ~ReportThermostatNumberOfWeeklyTransitions()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeInt16u(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeNumberOfWeeklyTransitions(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeNumberOfWeeklyTransitions(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                   mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute Int32u
+ * Attribute NumberOfDailyTransitions
  */
-class ReadTestClusterInt32u : public ModelCommand
+class ReadThermostatNumberOfDailyTransitions : public ModelCommand
 {
 public:
-    ReadTestClusterInt32u() : ModelCommand("read")
+    ReadThermostatNumberOfDailyTransitions() : ModelCommand("read")
     {
-        AddArgument("attr-name", "int32u");
+        AddArgument("attr-name", "number-of-daily-transitions");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterInt32u()
+    ~ReadThermostatNumberOfDailyTransitions()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -22038,66 +41810,86 @@ class ReadTestClusterInt32u : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeInt32u(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNumberOfDailyTransitions(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterInt32u : public ModelCommand
+class ReportThermostatNumberOfDailyTransitions : public ModelCommand
 {
 public:
-    WriteTestClusterInt32u() : ModelCommand("write")
+    ReportThermostatNumberOfDailyTransitions() : ModelCommand("report")
     {
-        AddArgument("attr-name", "int32u");
-        AddArgument("attr-value", 0, UINT32_MAX, &mValue);
+        AddArgument("attr-name", "number-of-daily-transitions");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterInt32u()
+    ~ReportThermostatNumberOfDailyTransitions()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeInt32u(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeNumberOfDailyTransitions(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeNumberOfDailyTransitions(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                  mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint32_t mValue;
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute Int64u
+ * Attribute FeatureMap
  */
-class ReadTestClusterInt64u : public ModelCommand
+class ReadThermostatFeatureMap : public ModelCommand
 {
 public:
-    ReadTestClusterInt64u() : ModelCommand("read")
+    ReadThermostatFeatureMap() : ModelCommand("read")
     {
-        AddArgument("attr-name", "int64u");
+        AddArgument("attr-name", "feature-map");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterInt64u()
+    ~ReadThermostatFeatureMap()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -22105,66 +41897,85 @@ class ReadTestClusterInt64u : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeInt64u(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeFeatureMap(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterInt64u : public ModelCommand
+class ReportThermostatFeatureMap : public ModelCommand
 {
 public:
-    WriteTestClusterInt64u() : ModelCommand("write")
+    ReportThermostatFeatureMap() : ModelCommand("report")
     {
-        AddArgument("attr-name", "int64u");
-        AddArgument("attr-value", 0, UINT64_MAX, &mValue);
+        AddArgument("attr-name", "feature-map");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterInt64u()
+    ~ReportThermostatFeatureMap()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeInt64u(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeFeatureMap(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeFeatureMap(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint64_t mValue;
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute Int8s
+ * Attribute ClusterRevision
  */
-class ReadTestClusterInt8s : public ModelCommand
+class ReadThermostatClusterRevision : public ModelCommand
 {
 public:
-    ReadTestClusterInt8s() : ModelCommand("read")
+    ReadThermostatClusterRevision() : ModelCommand("read")
     {
-        AddArgument("attr-name", "int8s");
+        AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterInt8s()
+    ~ReadThermostatClusterRevision()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -22172,66 +41983,97 @@ class ReadTestClusterInt8s : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeInt8s(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8sAttributeCallback>(OnInt8sAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterInt8s : public ModelCommand
+class ReportThermostatClusterRevision : public ModelCommand
 {
 public:
-    WriteTestClusterInt8s() : ModelCommand("write")
+    ReportThermostatClusterRevision() : ModelCommand("report")
     {
-        AddArgument("attr-name", "int8s");
-        AddArgument("attr-value", INT8_MIN, INT8_MAX, &mValue);
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterInt8s()
+    ~ReportThermostatClusterRevision()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeInt8s(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    int8_t mValue;
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
+/*----------------------------------------------------------------------------*\
+| Cluster ThermostatUserInterfaceConfiguration                        | 0x0204 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * TemperatureDisplayMode                                            | 0x0000 |
+| * KeypadLockout                                                     | 0x0001 |
+| * ScheduleProgrammingVisibility                                     | 0x0002 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
 /*
- * Attribute Int16s
+ * Attribute TemperatureDisplayMode
  */
-class ReadTestClusterInt16s : public ModelCommand
+class ReadThermostatUserInterfaceConfigurationTemperatureDisplayMode : public ModelCommand
 {
 public:
-    ReadTestClusterInt16s() : ModelCommand("read")
+    ReadThermostatUserInterfaceConfigurationTemperatureDisplayMode() : ModelCommand("read")
     {
-        AddArgument("attr-name", "int16s");
+        AddArgument("attr-name", "temperature-display-mode");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterInt16s()
+    ~ReadThermostatUserInterfaceConfigurationTemperatureDisplayMode()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -22239,31 +42081,31 @@ class ReadTestClusterInt16s : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0204) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeInt16s(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTemperatureDisplayMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterInt16s : public ModelCommand
+class WriteThermostatUserInterfaceConfigurationTemperatureDisplayMode : public ModelCommand
 {
 public:
-    WriteTestClusterInt16s() : ModelCommand("write")
+    WriteThermostatUserInterfaceConfigurationTemperatureDisplayMode() : ModelCommand("write")
     {
-        AddArgument("attr-name", "int16s");
-        AddArgument("attr-value", INT16_MIN, INT16_MAX, &mValue);
+        AddArgument("attr-name", "temperature-display-mode");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterInt16s()
+    ~WriteThermostatUserInterfaceConfigurationTemperatureDisplayMode()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -22271,11 +42113,11 @@ class WriteTestClusterInt16s : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0204) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeInt16s(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return cluster.WriteAttributeTemperatureDisplayMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
@@ -22283,54 +42125,75 @@ class WriteTestClusterInt16s : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    int16_t mValue;
+    uint8_t mValue;
 };
 
-/*
- * Attribute Int32s
- */
-class ReadTestClusterInt32s : public ModelCommand
+class ReportThermostatUserInterfaceConfigurationTemperatureDisplayMode : public ModelCommand
 {
 public:
-    ReadTestClusterInt32s() : ModelCommand("read")
+    ReportThermostatUserInterfaceConfigurationTemperatureDisplayMode() : ModelCommand("report")
     {
-        AddArgument("attr-name", "int32s");
+        AddArgument("attr-name", "temperature-display-mode");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterInt32s()
+    ~ReportThermostatUserInterfaceConfigurationTemperatureDisplayMode()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0204) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeInt32s(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTemperatureDisplayMode(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTemperatureDisplayMode(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32sAttributeCallback>(OnInt32sAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-class WriteTestClusterInt32s : public ModelCommand
+/*
+ * Attribute KeypadLockout
+ */
+class ReadThermostatUserInterfaceConfigurationKeypadLockout : public ModelCommand
 {
 public:
-    WriteTestClusterInt32s() : ModelCommand("write")
+    ReadThermostatUserInterfaceConfigurationKeypadLockout() : ModelCommand("read")
     {
-        AddArgument("attr-name", "int32s");
-        AddArgument("attr-value", INT32_MIN, INT32_MAX, &mValue);
+        AddArgument("attr-name", "keypad-lockout");
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterInt32s()
+    ~ReadThermostatUserInterfaceConfigurationKeypadLockout()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -22338,34 +42201,31 @@ class WriteTestClusterInt32s : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0204) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeInt32s(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return cluster.ReadAttributeKeypadLockout(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    int32_t mValue;
 };
 
-/*
- * Attribute Int64s
- */
-class ReadTestClusterInt64s : public ModelCommand
+class WriteThermostatUserInterfaceConfigurationKeypadLockout : public ModelCommand
 {
 public:
-    ReadTestClusterInt64s() : ModelCommand("read")
+    WriteThermostatUserInterfaceConfigurationKeypadLockout() : ModelCommand("write")
     {
-        AddArgument("attr-name", "int64s");
+        AddArgument("attr-name", "keypad-lockout");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterInt64s()
+    ~WriteThermostatUserInterfaceConfigurationKeypadLockout()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -22373,66 +42233,86 @@ class ReadTestClusterInt64s : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0204) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeInt64s(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeKeypadLockout(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int64sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64sAttributeCallback>(OnInt64sAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
 };
 
-class WriteTestClusterInt64s : public ModelCommand
+class ReportThermostatUserInterfaceConfigurationKeypadLockout : public ModelCommand
 {
 public:
-    WriteTestClusterInt64s() : ModelCommand("write")
+    ReportThermostatUserInterfaceConfigurationKeypadLockout() : ModelCommand("report")
     {
-        AddArgument("attr-name", "int64s");
-        AddArgument("attr-value", INT64_MIN, INT64_MAX, &mValue);
+        AddArgument("attr-name", "keypad-lockout");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterInt64s()
+    ~ReportThermostatUserInterfaceConfigurationKeypadLockout()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0204) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeInt64s(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeKeypadLockout(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeKeypadLockout(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    int64_t mValue;
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute Enum8
+ * Attribute ScheduleProgrammingVisibility
  */
-class ReadTestClusterEnum8 : public ModelCommand
+class ReadThermostatUserInterfaceConfigurationScheduleProgrammingVisibility : public ModelCommand
 {
 public:
-    ReadTestClusterEnum8() : ModelCommand("read")
+    ReadThermostatUserInterfaceConfigurationScheduleProgrammingVisibility() : ModelCommand("read")
     {
-        AddArgument("attr-name", "enum8");
+        AddArgument("attr-name", "schedule-programming-visibility");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterEnum8()
+    ~ReadThermostatUserInterfaceConfigurationScheduleProgrammingVisibility()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -22440,11 +42320,11 @@ class ReadTestClusterEnum8 : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0204) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeEnum8(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeScheduleProgrammingVisibility(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -22454,17 +42334,17 @@ class ReadTestClusterEnum8 : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterEnum8 : public ModelCommand
+class WriteThermostatUserInterfaceConfigurationScheduleProgrammingVisibility : public ModelCommand
 {
 public:
-    WriteTestClusterEnum8() : ModelCommand("write")
+    WriteThermostatUserInterfaceConfigurationScheduleProgrammingVisibility() : ModelCommand("write")
     {
-        AddArgument("attr-name", "enum8");
+        AddArgument("attr-name", "schedule-programming-visibility");
         AddArgument("attr-value", 0, UINT8_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterEnum8()
+    ~WriteThermostatUserInterfaceConfigurationScheduleProgrammingVisibility()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -22472,11 +42352,12 @@ class WriteTestClusterEnum8 : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0204) command (0x01) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeEnum8(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return cluster.WriteAttributeScheduleProgrammingVisibility(onSuccessCallback->Cancel(), onFailureCallback->Cancel(),
+                                                                   mValue);
     }
 
 private:
@@ -22487,51 +42368,72 @@ class WriteTestClusterEnum8 : public ModelCommand
     uint8_t mValue;
 };
 
-/*
- * Attribute Enum16
- */
-class ReadTestClusterEnum16 : public ModelCommand
+class ReportThermostatUserInterfaceConfigurationScheduleProgrammingVisibility : public ModelCommand
 {
 public:
-    ReadTestClusterEnum16() : ModelCommand("read")
+    ReportThermostatUserInterfaceConfigurationScheduleProgrammingVisibility() : ModelCommand("report")
     {
-        AddArgument("attr-name", "enum16");
+        AddArgument("attr-name", "schedule-programming-visibility");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterEnum16()
+    ~ReportThermostatUserInterfaceConfigurationScheduleProgrammingVisibility()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0204) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeEnum16(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeScheduleProgrammingVisibility(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeScheduleProgrammingVisibility(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                       mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-class WriteTestClusterEnum16 : public ModelCommand
+/*
+ * Attribute ClusterRevision
+ */
+class ReadThermostatUserInterfaceConfigurationClusterRevision : public ModelCommand
 {
 public:
-    WriteTestClusterEnum16() : ModelCommand("write")
+    ReadThermostatUserInterfaceConfigurationClusterRevision() : ModelCommand("read")
     {
-        AddArgument("attr-name", "enum16");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterEnum16()
+    ~ReadThermostatUserInterfaceConfigurationClusterRevision()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -22539,101 +42441,177 @@ class WriteTestClusterEnum16 : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0204) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeEnum16(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
 };
 
-/*
- * Attribute OctetString
- */
-class ReadTestClusterOctetString : public ModelCommand
+class ReportThermostatUserInterfaceConfigurationClusterRevision : public ModelCommand
 {
 public:
-    ReadTestClusterOctetString() : ModelCommand("read")
+    ReportThermostatUserInterfaceConfigurationClusterRevision() : ModelCommand("report")
     {
-        AddArgument("attr-name", "octet-string");
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterOctetString()
+    ~ReportThermostatUserInterfaceConfigurationClusterRevision()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0204) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOctetString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-class WriteTestClusterOctetString : public ModelCommand
+/*----------------------------------------------------------------------------*\
+| Cluster ThreadNetworkDiagnostics                                    | 0x0035 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * ResetCounts                                                       |   0x00 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * Channel                                                           | 0x0000 |
+| * RoutingRole                                                       | 0x0001 |
+| * NetworkName                                                       | 0x0002 |
+| * PanId                                                             | 0x0003 |
+| * ExtendedPanId                                                     | 0x0004 |
+| * MeshLocalPrefix                                                   | 0x0005 |
+| * OverrunCount                                                      | 0x0006 |
+| * NeighborTableList                                                 | 0x0007 |
+| * RouteTableList                                                    | 0x0008 |
+| * PartitionId                                                       | 0x0009 |
+| * Weighting                                                         | 0x000A |
+| * DataVersion                                                       | 0x000B |
+| * StableDataVersion                                                 | 0x000C |
+| * LeaderRouterId                                                    | 0x000D |
+| * DetachedRoleCount                                                 | 0x000E |
+| * ChildRoleCount                                                    | 0x000F |
+| * RouterRoleCount                                                   | 0x0010 |
+| * LeaderRoleCount                                                   | 0x0011 |
+| * AttachAttemptCount                                                | 0x0012 |
+| * PartitionIdChangeCount                                            | 0x0013 |
+| * BetterPartitionAttachAttemptCount                                 | 0x0014 |
+| * ParentChangeCount                                                 | 0x0015 |
+| * TxTotalCount                                                      | 0x0016 |
+| * TxUnicastCount                                                    | 0x0017 |
+| * TxBroadcastCount                                                  | 0x0018 |
+| * TxAckRequestedCount                                               | 0x0019 |
+| * TxAckedCount                                                      | 0x001A |
+| * TxNoAckRequestedCount                                             | 0x001B |
+| * TxDataCount                                                       | 0x001C |
+| * TxDataPollCount                                                   | 0x001D |
+| * TxBeaconCount                                                     | 0x001E |
+| * TxBeaconRequestCount                                              | 0x001F |
+| * TxOtherCount                                                      | 0x0020 |
+| * TxRetryCount                                                      | 0x0021 |
+| * TxDirectMaxRetryExpiryCount                                       | 0x0022 |
+| * TxIndirectMaxRetryExpiryCount                                     | 0x0023 |
+| * TxErrCcaCount                                                     | 0x0024 |
+| * TxErrAbortCount                                                   | 0x0025 |
+| * TxErrBusyChannelCount                                             | 0x0026 |
+| * RxTotalCount                                                      | 0x0027 |
+| * RxUnicastCount                                                    | 0x0028 |
+| * RxBroadcastCount                                                  | 0x0029 |
+| * RxDataCount                                                       | 0x002A |
+| * RxDataPollCount                                                   | 0x002B |
+| * RxBeaconCount                                                     | 0x002C |
+| * RxBeaconRequestCount                                              | 0x002D |
+| * RxOtherCount                                                      | 0x002E |
+| * RxAddressFilteredCount                                            | 0x002F |
+| * RxDestAddrFilteredCount                                           | 0x0030 |
+| * RxDuplicatedCount                                                 | 0x0031 |
+| * RxErrNoFrameCount                                                 | 0x0032 |
+| * RxErrUnknownNeighborCount                                         | 0x0033 |
+| * RxErrInvalidSrcAddrCount                                          | 0x0034 |
+| * RxErrSecCount                                                     | 0x0035 |
+| * RxErrFcsCount                                                     | 0x0036 |
+| * RxErrOtherCount                                                   | 0x0037 |
+| * ActiveTimestamp                                                   | 0x0038 |
+| * PendingTimestamp                                                  | 0x0039 |
+| * Delay                                                             | 0x003A |
+| * SecurityPolicy                                                    | 0x003B |
+| * ChannelMask                                                       | 0x003C |
+| * OperationalDatasetComponents                                      | 0x003D |
+| * ActiveNetworkFaultsList                                           | 0x003E |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
+/*
+ * Command ResetCounts
+ */
+class ThreadNetworkDiagnosticsResetCounts : public ModelCommand
 {
 public:
-    WriteTestClusterOctetString() : ModelCommand("write")
-    {
-        AddArgument("attr-name", "octet-string");
-        AddArgument("attr-value", &mValue);
-        ModelCommand::AddArguments();
-    }
-
-    ~WriteTestClusterOctetString()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
+    ThreadNetworkDiagnosticsResetCounts() : ModelCommand("reset-counts") { ModelCommand::AddArguments(); }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000035) command (0x00000000) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeOctetString(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::ByteSpan mValue;
+    chip::app::Clusters::ThreadNetworkDiagnostics::Commands::ResetCounts::Type mRequest;
 };
 
 /*
- * Attribute ListInt8u
+ * Attribute Channel
  */
-class ReadTestClusterListInt8u : public ModelCommand
+class ReadThreadNetworkDiagnosticsChannel : public ModelCommand
 {
 public:
-    ReadTestClusterListInt8u() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsChannel() : ModelCommand("read")
     {
-        AddArgument("attr-name", "list-int8u");
+        AddArgument("attr-name", "channel");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterListInt8u()
+    ~ReadThreadNetworkDiagnosticsChannel()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -22641,103 +42619,85 @@ class ReadTestClusterListInt8u : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeListInt8u(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeChannel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<TestClusterListInt8uListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<TestClusterListInt8uListAttributeCallback>(OnTestClusterListInt8uListAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ListOctetString
- */
-class ReadTestClusterListOctetString : public ModelCommand
+class ReportThreadNetworkDiagnosticsChannel : public ModelCommand
 {
 public:
-    ReadTestClusterListOctetString() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsChannel() : ModelCommand("report")
     {
-        AddArgument("attr-name", "list-octet-string");
+        AddArgument("attr-name", "channel");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterListOctetString()
+    ~ReportThreadNetworkDiagnosticsChannel()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeListOctetString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
-    }
-
-private:
-    chip::Callback::Callback<TestClusterListOctetStringListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<TestClusterListOctetStringListAttributeCallback>(
-            OnTestClusterListOctetStringListAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-};
 
-/*
- * Attribute ListStructOctetString
- */
-class ReadTestClusterListStructOctetString : public ModelCommand
-{
-public:
-    ReadTestClusterListStructOctetString() : ModelCommand("read")
-    {
-        AddArgument("attr-name", "list-struct-octet-string");
-        ModelCommand::AddArguments();
-    }
+        ReturnErrorOnFailure(cluster.ReportAttributeChannel(onReportCallback->Cancel()));
 
-    ~ReadTestClusterListStructOctetString()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeChannel(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
-
-        chip::Controller::TestClusterCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeListStructOctetString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<TestClusterListStructOctetStringListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<TestClusterListStructOctetStringListAttributeCallback>(
-            OnTestClusterListStructOctetStringListAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute LongOctetString
+ * Attribute RoutingRole
  */
-class ReadTestClusterLongOctetString : public ModelCommand
+class ReadThreadNetworkDiagnosticsRoutingRole : public ModelCommand
 {
 public:
-    ReadTestClusterLongOctetString() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsRoutingRole() : ModelCommand("read")
     {
-        AddArgument("attr-name", "long-octet-string");
+        AddArgument("attr-name", "routing-role");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterLongOctetString()
+    ~ReadThreadNetworkDiagnosticsRoutingRole()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -22745,66 +42705,85 @@ class ReadTestClusterLongOctetString : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeLongOctetString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRoutingRole(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterLongOctetString : public ModelCommand
+class ReportThreadNetworkDiagnosticsRoutingRole : public ModelCommand
 {
 public:
-    WriteTestClusterLongOctetString() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsRoutingRole() : ModelCommand("report")
     {
-        AddArgument("attr-name", "long-octet-string");
-        AddArgument("attr-value", &mValue);
+        AddArgument("attr-name", "routing-role");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterLongOctetString()
+    ~ReportThreadNetworkDiagnosticsRoutingRole()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeLongOctetString(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRoutingRole(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRoutingRole(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::ByteSpan mValue;
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute CharString
+ * Attribute NetworkName
  */
-class ReadTestClusterCharString : public ModelCommand
+class ReadThreadNetworkDiagnosticsNetworkName : public ModelCommand
 {
 public:
-    ReadTestClusterCharString() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsNetworkName() : ModelCommand("read")
     {
-        AddArgument("attr-name", "char-string");
+        AddArgument("attr-name", "network-name");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterCharString()
+    ~ReadThreadNetworkDiagnosticsNetworkName()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -22812,66 +42791,85 @@ class ReadTestClusterCharString : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCharString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNetworkName(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterCharString : public ModelCommand
+class ReportThreadNetworkDiagnosticsNetworkName : public ModelCommand
 {
 public:
-    WriteTestClusterCharString() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsNetworkName() : ModelCommand("report")
     {
-        AddArgument("attr-name", "char-string");
-        AddArgument("attr-value", &mValue);
+        AddArgument("attr-name", "network-name");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterCharString()
+    ~ReportThreadNetworkDiagnosticsNetworkName()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeCharString(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeNetworkName(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeNetworkName(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::CharSpan mValue;
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute LongCharString
+ * Attribute PanId
  */
-class ReadTestClusterLongCharString : public ModelCommand
+class ReadThreadNetworkDiagnosticsPanId : public ModelCommand
 {
 public:
-    ReadTestClusterLongCharString() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsPanId() : ModelCommand("read")
     {
-        AddArgument("attr-name", "long-char-string");
+        AddArgument("attr-name", "pan-id");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterLongCharString()
+    ~ReadThreadNetworkDiagnosticsPanId()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -22879,66 +42877,85 @@ class ReadTestClusterLongCharString : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeLongCharString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePanId(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterLongCharString : public ModelCommand
+class ReportThreadNetworkDiagnosticsPanId : public ModelCommand
 {
 public:
-    WriteTestClusterLongCharString() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsPanId() : ModelCommand("report")
     {
-        AddArgument("attr-name", "long-char-string");
-        AddArgument("attr-value", &mValue);
+        AddArgument("attr-name", "pan-id");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterLongCharString()
+    ~ReportThreadNetworkDiagnosticsPanId()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeLongCharString(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributePanId(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePanId(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::CharSpan mValue;
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute EpochUs
+ * Attribute ExtendedPanId
  */
-class ReadTestClusterEpochUs : public ModelCommand
+class ReadThreadNetworkDiagnosticsExtendedPanId : public ModelCommand
 {
 public:
-    ReadTestClusterEpochUs() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsExtendedPanId() : ModelCommand("read")
     {
-        AddArgument("attr-name", "epoch-us");
+        AddArgument("attr-name", "extended-pan-id");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterEpochUs()
+    ~ReadThreadNetworkDiagnosticsExtendedPanId()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -22946,11 +42963,11 @@ class ReadTestClusterEpochUs : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeEpochUs(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeExtendedPanId(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -22960,52 +42977,71 @@ class ReadTestClusterEpochUs : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterEpochUs : public ModelCommand
+class ReportThreadNetworkDiagnosticsExtendedPanId : public ModelCommand
 {
 public:
-    WriteTestClusterEpochUs() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsExtendedPanId() : ModelCommand("report")
     {
-        AddArgument("attr-name", "epoch-us");
-        AddArgument("attr-value", 0, UINT64_MAX, &mValue);
+        AddArgument("attr-name", "extended-pan-id");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterEpochUs()
+    ~ReportThreadNetworkDiagnosticsExtendedPanId()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeEpochUs(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeExtendedPanId(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeExtendedPanId(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint64_t mValue;
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute EpochS
+ * Attribute MeshLocalPrefix
  */
-class ReadTestClusterEpochS : public ModelCommand
+class ReadThreadNetworkDiagnosticsMeshLocalPrefix : public ModelCommand
 {
 public:
-    ReadTestClusterEpochS() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsMeshLocalPrefix() : ModelCommand("read")
     {
-        AddArgument("attr-name", "epoch-s");
+        AddArgument("attr-name", "mesh-local-prefix");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterEpochS()
+    ~ReadThreadNetworkDiagnosticsMeshLocalPrefix()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -23013,66 +43049,85 @@ class ReadTestClusterEpochS : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeEpochS(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeMeshLocalPrefix(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterEpochS : public ModelCommand
+class ReportThreadNetworkDiagnosticsMeshLocalPrefix : public ModelCommand
 {
 public:
-    WriteTestClusterEpochS() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsMeshLocalPrefix() : ModelCommand("report")
     {
-        AddArgument("attr-name", "epoch-s");
-        AddArgument("attr-value", 0, UINT32_MAX, &mValue);
+        AddArgument("attr-name", "mesh-local-prefix");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterEpochS()
+    ~ReportThreadNetworkDiagnosticsMeshLocalPrefix()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeEpochS(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMeshLocalPrefix(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMeshLocalPrefix(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint32_t mValue;
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute VendorId
+ * Attribute OverrunCount
  */
-class ReadTestClusterVendorId : public ModelCommand
+class ReadThreadNetworkDiagnosticsOverrunCount : public ModelCommand
 {
 public:
-    ReadTestClusterVendorId() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsOverrunCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "vendor-id");
+        AddArgument("attr-name", "overrun-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterVendorId()
+    ~ReadThreadNetworkDiagnosticsOverrunCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -23080,66 +43135,85 @@ class ReadTestClusterVendorId : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeVendorId(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeOverrunCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterVendorId : public ModelCommand
+class ReportThreadNetworkDiagnosticsOverrunCount : public ModelCommand
 {
 public:
-    WriteTestClusterVendorId() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsOverrunCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "vendor-id");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "overrun-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterVendorId()
+    ~ReportThreadNetworkDiagnosticsOverrunCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeVendorId(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOverrunCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOverrunCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::VendorId mValue;
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ListNullablesAndOptionalsStruct
+ * Attribute NeighborTableList
  */
-class ReadTestClusterListNullablesAndOptionalsStruct : public ModelCommand
+class ReadThreadNetworkDiagnosticsNeighborTableList : public ModelCommand
 {
 public:
-    ReadTestClusterListNullablesAndOptionalsStruct() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsNeighborTableList() : ModelCommand("read")
     {
-        AddArgument("attr-name", "list-nullables-and-optionals-struct");
+        AddArgument("attr-name", "neighbor-table-list");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterListNullablesAndOptionalsStruct()
+    ~ReadThreadNetworkDiagnosticsNeighborTableList()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -23147,34 +43221,34 @@ class ReadTestClusterListNullablesAndOptionalsStruct : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeListNullablesAndOptionalsStruct(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeNeighborTableList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<TestClusterListNullablesAndOptionalsStructListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<TestClusterListNullablesAndOptionalsStructListAttributeCallback>(
-            OnTestClusterListNullablesAndOptionalsStructListAttributeResponse, this);
+    chip::Callback::Callback<ThreadNetworkDiagnosticsNeighborTableListListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<ThreadNetworkDiagnosticsNeighborTableListListAttributeCallback>(
+            OnThreadNetworkDiagnosticsNeighborTableListListAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
 /*
- * Attribute Unsupported
+ * Attribute RouteTableList
  */
-class ReadTestClusterUnsupported : public ModelCommand
+class ReadThreadNetworkDiagnosticsRouteTableList : public ModelCommand
 {
 public:
-    ReadTestClusterUnsupported() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsRouteTableList() : ModelCommand("read")
     {
-        AddArgument("attr-name", "unsupported");
+        AddArgument("attr-name", "route-table-list");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterUnsupported()
+    ~ReadThreadNetworkDiagnosticsRouteTableList()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -23182,31 +43256,34 @@ class ReadTestClusterUnsupported : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeUnsupported(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRouteTableList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<ThreadNetworkDiagnosticsRouteTableListListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<ThreadNetworkDiagnosticsRouteTableListListAttributeCallback>(
+            OnThreadNetworkDiagnosticsRouteTableListListAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterUnsupported : public ModelCommand
+/*
+ * Attribute PartitionId
+ */
+class ReadThreadNetworkDiagnosticsPartitionId : public ModelCommand
 {
 public:
-    WriteTestClusterUnsupported() : ModelCommand("write")
+    ReadThreadNetworkDiagnosticsPartitionId() : ModelCommand("read")
     {
-        AddArgument("attr-name", "unsupported");
-        AddArgument("attr-value", 0, 1, &mValue);
+        AddArgument("attr-name", "partition-id");
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterUnsupported()
+    ~ReadThreadNetworkDiagnosticsPartitionId()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -23214,101 +43291,85 @@ class WriteTestClusterUnsupported : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeUnsupported(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return cluster.ReadAttributePartitionId(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    bool mValue;
 };
 
-/*
- * Attribute NullableBoolean
- */
-class ReadTestClusterNullableBoolean : public ModelCommand
+class ReportThreadNetworkDiagnosticsPartitionId : public ModelCommand
 {
 public:
-    ReadTestClusterNullableBoolean() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsPartitionId() : ModelCommand("report")
     {
-        AddArgument("attr-name", "nullable-boolean");
+        AddArgument("attr-name", "partition-id");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterNullableBoolean()
+    ~ReportThreadNetworkDiagnosticsPartitionId()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNullableBoolean(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
-    }
-
-private:
-    chip::Callback::Callback<BooleanAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-};
 
-class WriteTestClusterNullableBoolean : public ModelCommand
-{
-public:
-    WriteTestClusterNullableBoolean() : ModelCommand("write")
-    {
-        AddArgument("attr-name", "nullable-boolean");
-        AddArgument("attr-value", 0, 1, &mValue);
-        ModelCommand::AddArguments();
-    }
+        ReturnErrorOnFailure(cluster.ReportAttributePartitionId(onReportCallback->Cancel()));
 
-    ~WriteTestClusterNullableBoolean()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePartitionId(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
-
-        chip::Controller::TestClusterCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeNullableBoolean(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    bool mValue;
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute NullableBitmap8
+ * Attribute Weighting
  */
-class ReadTestClusterNullableBitmap8 : public ModelCommand
+class ReadThreadNetworkDiagnosticsWeighting : public ModelCommand
 {
 public:
-    ReadTestClusterNullableBitmap8() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsWeighting() : ModelCommand("read")
     {
-        AddArgument("attr-name", "nullable-bitmap8");
+        AddArgument("attr-name", "weighting");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterNullableBitmap8()
+    ~ReadThreadNetworkDiagnosticsWeighting()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -23316,11 +43377,11 @@ class ReadTestClusterNullableBitmap8 : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNullableBitmap8(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeWeighting(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -23330,52 +43391,71 @@ class ReadTestClusterNullableBitmap8 : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterNullableBitmap8 : public ModelCommand
+class ReportThreadNetworkDiagnosticsWeighting : public ModelCommand
 {
 public:
-    WriteTestClusterNullableBitmap8() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsWeighting() : ModelCommand("report")
     {
-        AddArgument("attr-name", "nullable-bitmap8");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "weighting");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterNullableBitmap8()
+    ~ReportThreadNetworkDiagnosticsWeighting()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeNullableBitmap8(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeWeighting(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeWeighting(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute NullableBitmap16
+ * Attribute DataVersion
  */
-class ReadTestClusterNullableBitmap16 : public ModelCommand
+class ReadThreadNetworkDiagnosticsDataVersion : public ModelCommand
 {
 public:
-    ReadTestClusterNullableBitmap16() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsDataVersion() : ModelCommand("read")
     {
-        AddArgument("attr-name", "nullable-bitmap16");
+        AddArgument("attr-name", "data-version");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterNullableBitmap16()
+    ~ReadThreadNetworkDiagnosticsDataVersion()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -23383,66 +43463,85 @@ class ReadTestClusterNullableBitmap16 : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNullableBitmap16(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeDataVersion(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterNullableBitmap16 : public ModelCommand
+class ReportThreadNetworkDiagnosticsDataVersion : public ModelCommand
 {
 public:
-    WriteTestClusterNullableBitmap16() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsDataVersion() : ModelCommand("report")
     {
-        AddArgument("attr-name", "nullable-bitmap16");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "data-version");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterNullableBitmap16()
+    ~ReportThreadNetworkDiagnosticsDataVersion()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeNullableBitmap16(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeDataVersion(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeDataVersion(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute NullableBitmap32
+ * Attribute StableDataVersion
  */
-class ReadTestClusterNullableBitmap32 : public ModelCommand
+class ReadThreadNetworkDiagnosticsStableDataVersion : public ModelCommand
 {
 public:
-    ReadTestClusterNullableBitmap32() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsStableDataVersion() : ModelCommand("read")
     {
-        AddArgument("attr-name", "nullable-bitmap32");
+        AddArgument("attr-name", "stable-data-version");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterNullableBitmap32()
+    ~ReadThreadNetworkDiagnosticsStableDataVersion()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -23450,66 +43549,86 @@ class ReadTestClusterNullableBitmap32 : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNullableBitmap32(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeStableDataVersion(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterNullableBitmap32 : public ModelCommand
+class ReportThreadNetworkDiagnosticsStableDataVersion : public ModelCommand
 {
 public:
-    WriteTestClusterNullableBitmap32() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsStableDataVersion() : ModelCommand("report")
     {
-        AddArgument("attr-name", "nullable-bitmap32");
-        AddArgument("attr-value", 0, UINT32_MAX, &mValue);
+        AddArgument("attr-name", "stable-data-version");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterNullableBitmap32()
+    ~ReportThreadNetworkDiagnosticsStableDataVersion()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeNullableBitmap32(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeStableDataVersion(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeStableDataVersion(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint32_t mValue;
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute NullableBitmap64
+ * Attribute LeaderRouterId
  */
-class ReadTestClusterNullableBitmap64 : public ModelCommand
+class ReadThreadNetworkDiagnosticsLeaderRouterId : public ModelCommand
 {
 public:
-    ReadTestClusterNullableBitmap64() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsLeaderRouterId() : ModelCommand("read")
     {
-        AddArgument("attr-name", "nullable-bitmap64");
+        AddArgument("attr-name", "leader-router-id");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterNullableBitmap64()
+    ~ReadThreadNetworkDiagnosticsLeaderRouterId()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -23517,66 +43636,85 @@ class ReadTestClusterNullableBitmap64 : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNullableBitmap64(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeLeaderRouterId(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterNullableBitmap64 : public ModelCommand
+class ReportThreadNetworkDiagnosticsLeaderRouterId : public ModelCommand
 {
 public:
-    WriteTestClusterNullableBitmap64() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsLeaderRouterId() : ModelCommand("report")
     {
-        AddArgument("attr-name", "nullable-bitmap64");
-        AddArgument("attr-value", 0, UINT64_MAX, &mValue);
+        AddArgument("attr-name", "leader-router-id");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterNullableBitmap64()
+    ~ReportThreadNetworkDiagnosticsLeaderRouterId()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeNullableBitmap64(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeLeaderRouterId(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeLeaderRouterId(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint64_t mValue;
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute NullableInt8u
+ * Attribute DetachedRoleCount
  */
-class ReadTestClusterNullableInt8u : public ModelCommand
+class ReadThreadNetworkDiagnosticsDetachedRoleCount : public ModelCommand
 {
 public:
-    ReadTestClusterNullableInt8u() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsDetachedRoleCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "nullable-int8u");
+        AddArgument("attr-name", "detached-role-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterNullableInt8u()
+    ~ReadThreadNetworkDiagnosticsDetachedRoleCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -23584,66 +43722,86 @@ class ReadTestClusterNullableInt8u : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNullableInt8u(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeDetachedRoleCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterNullableInt8u : public ModelCommand
+class ReportThreadNetworkDiagnosticsDetachedRoleCount : public ModelCommand
 {
 public:
-    WriteTestClusterNullableInt8u() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsDetachedRoleCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "nullable-int8u");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "detached-role-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterNullableInt8u()
+    ~ReportThreadNetworkDiagnosticsDetachedRoleCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeNullableInt8u(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeDetachedRoleCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeDetachedRoleCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute NullableInt16u
+ * Attribute ChildRoleCount
  */
-class ReadTestClusterNullableInt16u : public ModelCommand
+class ReadThreadNetworkDiagnosticsChildRoleCount : public ModelCommand
 {
 public:
-    ReadTestClusterNullableInt16u() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsChildRoleCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "nullable-int16u");
+        AddArgument("attr-name", "child-role-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterNullableInt16u()
+    ~ReadThreadNetworkDiagnosticsChildRoleCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -23651,11 +43809,11 @@ class ReadTestClusterNullableInt16u : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNullableInt16u(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeChildRoleCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -23665,52 +43823,71 @@ class ReadTestClusterNullableInt16u : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterNullableInt16u : public ModelCommand
+class ReportThreadNetworkDiagnosticsChildRoleCount : public ModelCommand
 {
 public:
-    WriteTestClusterNullableInt16u() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsChildRoleCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "nullable-int16u");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "child-role-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterNullableInt16u()
+    ~ReportThreadNetworkDiagnosticsChildRoleCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeNullableInt16u(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeChildRoleCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeChildRoleCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute NullableInt32u
+ * Attribute RouterRoleCount
  */
-class ReadTestClusterNullableInt32u : public ModelCommand
+class ReadThreadNetworkDiagnosticsRouterRoleCount : public ModelCommand
 {
 public:
-    ReadTestClusterNullableInt32u() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsRouterRoleCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "nullable-int32u");
+        AddArgument("attr-name", "router-role-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterNullableInt32u()
+    ~ReadThreadNetworkDiagnosticsRouterRoleCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -23718,66 +43895,85 @@ class ReadTestClusterNullableInt32u : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNullableInt32u(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRouterRoleCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterNullableInt32u : public ModelCommand
+class ReportThreadNetworkDiagnosticsRouterRoleCount : public ModelCommand
 {
 public:
-    WriteTestClusterNullableInt32u() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsRouterRoleCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "nullable-int32u");
-        AddArgument("attr-value", 0, UINT32_MAX, &mValue);
+        AddArgument("attr-name", "router-role-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterNullableInt32u()
+    ~ReportThreadNetworkDiagnosticsRouterRoleCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeNullableInt32u(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRouterRoleCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRouterRoleCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint32_t mValue;
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute NullableInt64u
+ * Attribute LeaderRoleCount
  */
-class ReadTestClusterNullableInt64u : public ModelCommand
+class ReadThreadNetworkDiagnosticsLeaderRoleCount : public ModelCommand
 {
 public:
-    ReadTestClusterNullableInt64u() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsLeaderRoleCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "nullable-int64u");
+        AddArgument("attr-name", "leader-role-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterNullableInt64u()
+    ~ReadThreadNetworkDiagnosticsLeaderRoleCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -23785,66 +43981,85 @@ class ReadTestClusterNullableInt64u : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNullableInt64u(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeLeaderRoleCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterNullableInt64u : public ModelCommand
+class ReportThreadNetworkDiagnosticsLeaderRoleCount : public ModelCommand
 {
 public:
-    WriteTestClusterNullableInt64u() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsLeaderRoleCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "nullable-int64u");
-        AddArgument("attr-value", 0, UINT64_MAX, &mValue);
+        AddArgument("attr-name", "leader-role-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterNullableInt64u()
+    ~ReportThreadNetworkDiagnosticsLeaderRoleCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeNullableInt64u(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeLeaderRoleCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeLeaderRoleCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint64_t mValue;
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute NullableInt8s
+ * Attribute AttachAttemptCount
  */
-class ReadTestClusterNullableInt8s : public ModelCommand
+class ReadThreadNetworkDiagnosticsAttachAttemptCount : public ModelCommand
 {
 public:
-    ReadTestClusterNullableInt8s() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsAttachAttemptCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "nullable-int8s");
+        AddArgument("attr-name", "attach-attempt-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterNullableInt8s()
+    ~ReadThreadNetworkDiagnosticsAttachAttemptCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -23852,66 +44067,86 @@ class ReadTestClusterNullableInt8s : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNullableInt8s(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeAttachAttemptCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8sAttributeCallback>(OnInt8sAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterNullableInt8s : public ModelCommand
+class ReportThreadNetworkDiagnosticsAttachAttemptCount : public ModelCommand
 {
 public:
-    WriteTestClusterNullableInt8s() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsAttachAttemptCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "nullable-int8s");
-        AddArgument("attr-value", INT8_MIN, INT8_MAX, &mValue);
+        AddArgument("attr-name", "attach-attempt-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterNullableInt8s()
+    ~ReportThreadNetworkDiagnosticsAttachAttemptCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeNullableInt8s(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeAttachAttemptCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeAttachAttemptCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                            mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    int8_t mValue;
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute NullableInt16s
+ * Attribute PartitionIdChangeCount
  */
-class ReadTestClusterNullableInt16s : public ModelCommand
+class ReadThreadNetworkDiagnosticsPartitionIdChangeCount : public ModelCommand
 {
 public:
-    ReadTestClusterNullableInt16s() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsPartitionIdChangeCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "nullable-int16s");
+        AddArgument("attr-name", "partition-id-change-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterNullableInt16s()
+    ~ReadThreadNetworkDiagnosticsPartitionIdChangeCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -23919,66 +44154,86 @@ class ReadTestClusterNullableInt16s : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNullableInt16s(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePartitionIdChangeCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterNullableInt16s : public ModelCommand
+class ReportThreadNetworkDiagnosticsPartitionIdChangeCount : public ModelCommand
 {
 public:
-    WriteTestClusterNullableInt16s() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsPartitionIdChangeCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "nullable-int16s");
-        AddArgument("attr-value", INT16_MIN, INT16_MAX, &mValue);
+        AddArgument("attr-name", "partition-id-change-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterNullableInt16s()
+    ~ReportThreadNetworkDiagnosticsPartitionIdChangeCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeNullableInt16s(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributePartitionIdChangeCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePartitionIdChangeCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    int16_t mValue;
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute NullableInt32s
+ * Attribute BetterPartitionAttachAttemptCount
  */
-class ReadTestClusterNullableInt32s : public ModelCommand
+class ReadThreadNetworkDiagnosticsBetterPartitionAttachAttemptCount : public ModelCommand
 {
 public:
-    ReadTestClusterNullableInt32s() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsBetterPartitionAttachAttemptCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "nullable-int32s");
+        AddArgument("attr-name", "better-partition-attach-attempt-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterNullableInt32s()
+    ~ReadThreadNetworkDiagnosticsBetterPartitionAttachAttemptCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -23986,66 +44241,86 @@ class ReadTestClusterNullableInt32s : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNullableInt32s(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeBetterPartitionAttachAttemptCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32sAttributeCallback>(OnInt32sAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterNullableInt32s : public ModelCommand
+class ReportThreadNetworkDiagnosticsBetterPartitionAttachAttemptCount : public ModelCommand
 {
 public:
-    WriteTestClusterNullableInt32s() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsBetterPartitionAttachAttemptCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "nullable-int32s");
-        AddArgument("attr-value", INT32_MIN, INT32_MAX, &mValue);
+        AddArgument("attr-name", "better-partition-attach-attempt-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterNullableInt32s()
+    ~ReportThreadNetworkDiagnosticsBetterPartitionAttachAttemptCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeNullableInt32s(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeBetterPartitionAttachAttemptCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeBetterPartitionAttachAttemptCount(successCallback, onFailureCallback->Cancel(),
+                                                                           mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    int32_t mValue;
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute NullableInt64s
+ * Attribute ParentChangeCount
  */
-class ReadTestClusterNullableInt64s : public ModelCommand
+class ReadThreadNetworkDiagnosticsParentChangeCount : public ModelCommand
 {
 public:
-    ReadTestClusterNullableInt64s() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsParentChangeCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "nullable-int64s");
+        AddArgument("attr-name", "parent-change-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterNullableInt64s()
+    ~ReadThreadNetworkDiagnosticsParentChangeCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -24053,66 +44328,86 @@ class ReadTestClusterNullableInt64s : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNullableInt64s(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeParentChangeCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int64sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64sAttributeCallback>(OnInt64sAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterNullableInt64s : public ModelCommand
+class ReportThreadNetworkDiagnosticsParentChangeCount : public ModelCommand
 {
 public:
-    WriteTestClusterNullableInt64s() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsParentChangeCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "nullable-int64s");
-        AddArgument("attr-value", INT64_MIN, INT64_MAX, &mValue);
+        AddArgument("attr-name", "parent-change-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterNullableInt64s()
+    ~ReportThreadNetworkDiagnosticsParentChangeCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeNullableInt64s(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeParentChangeCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeParentChangeCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    int64_t mValue;
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute NullableEnum8
+ * Attribute TxTotalCount
  */
-class ReadTestClusterNullableEnum8 : public ModelCommand
+class ReadThreadNetworkDiagnosticsTxTotalCount : public ModelCommand
 {
 public:
-    ReadTestClusterNullableEnum8() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsTxTotalCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "nullable-enum8");
+        AddArgument("attr-name", "tx-total-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterNullableEnum8()
+    ~ReadThreadNetworkDiagnosticsTxTotalCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -24120,66 +44415,85 @@ class ReadTestClusterNullableEnum8 : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNullableEnum8(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTxTotalCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterNullableEnum8 : public ModelCommand
+class ReportThreadNetworkDiagnosticsTxTotalCount : public ModelCommand
 {
 public:
-    WriteTestClusterNullableEnum8() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsTxTotalCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "nullable-enum8");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "tx-total-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterNullableEnum8()
+    ~ReportThreadNetworkDiagnosticsTxTotalCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeNullableEnum8(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTxTotalCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTxTotalCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute NullableEnum16
+ * Attribute TxUnicastCount
  */
-class ReadTestClusterNullableEnum16 : public ModelCommand
+class ReadThreadNetworkDiagnosticsTxUnicastCount : public ModelCommand
 {
 public:
-    ReadTestClusterNullableEnum16() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsTxUnicastCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "nullable-enum16");
+        AddArgument("attr-name", "tx-unicast-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterNullableEnum16()
+    ~ReadThreadNetworkDiagnosticsTxUnicastCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -24187,66 +44501,85 @@ class ReadTestClusterNullableEnum16 : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNullableEnum16(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTxUnicastCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterNullableEnum16 : public ModelCommand
+class ReportThreadNetworkDiagnosticsTxUnicastCount : public ModelCommand
 {
 public:
-    WriteTestClusterNullableEnum16() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsTxUnicastCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "nullable-enum16");
-        AddArgument("attr-value", 0, UINT16_MAX, &mValue);
+        AddArgument("attr-name", "tx-unicast-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterNullableEnum16()
+    ~ReportThreadNetworkDiagnosticsTxUnicastCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeNullableEnum16(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTxUnicastCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTxUnicastCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint16_t mValue;
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute NullableOctetString
+ * Attribute TxBroadcastCount
  */
-class ReadTestClusterNullableOctetString : public ModelCommand
+class ReadThreadNetworkDiagnosticsTxBroadcastCount : public ModelCommand
 {
 public:
-    ReadTestClusterNullableOctetString() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsTxBroadcastCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "nullable-octet-string");
+        AddArgument("attr-name", "tx-broadcast-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterNullableOctetString()
+    ~ReadThreadNetworkDiagnosticsTxBroadcastCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -24254,66 +44587,85 @@ class ReadTestClusterNullableOctetString : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNullableOctetString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTxBroadcastCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterNullableOctetString : public ModelCommand
+class ReportThreadNetworkDiagnosticsTxBroadcastCount : public ModelCommand
 {
 public:
-    WriteTestClusterNullableOctetString() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsTxBroadcastCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "nullable-octet-string");
-        AddArgument("attr-value", &mValue);
+        AddArgument("attr-name", "tx-broadcast-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterNullableOctetString()
+    ~ReportThreadNetworkDiagnosticsTxBroadcastCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeNullableOctetString(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTxBroadcastCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTxBroadcastCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::ByteSpan mValue;
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute NullableCharString
+ * Attribute TxAckRequestedCount
  */
-class ReadTestClusterNullableCharString : public ModelCommand
+class ReadThreadNetworkDiagnosticsTxAckRequestedCount : public ModelCommand
 {
 public:
-    ReadTestClusterNullableCharString() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsTxAckRequestedCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "nullable-char-string");
+        AddArgument("attr-name", "tx-ack-requested-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterNullableCharString()
+    ~ReadThreadNetworkDiagnosticsTxAckRequestedCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -24321,66 +44673,86 @@ class ReadTestClusterNullableCharString : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNullableCharString(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTxAckRequestedCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteTestClusterNullableCharString : public ModelCommand
+class ReportThreadNetworkDiagnosticsTxAckRequestedCount : public ModelCommand
 {
 public:
-    WriteTestClusterNullableCharString() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsTxAckRequestedCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "nullable-char-string");
-        AddArgument("attr-value", &mValue);
+        AddArgument("attr-name", "tx-ack-requested-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteTestClusterNullableCharString()
+    ~ReportThreadNetworkDiagnosticsTxAckRequestedCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeNullableCharString(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTxAckRequestedCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTxAckRequestedCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                             mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::CharSpan mValue;
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute TxAckedCount
  */
-class ReadTestClusterClusterRevision : public ModelCommand
+class ReadThreadNetworkDiagnosticsTxAckedCount : public ModelCommand
 {
 public:
-    ReadTestClusterClusterRevision() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsTxAckedCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "tx-acked-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadTestClusterClusterRevision()
+    ~ReadThreadNetworkDiagnosticsTxAckedCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -24388,184 +44760,172 @@ class ReadTestClusterClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x050F) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::TestClusterCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTxAckedCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster Thermostat                                                  | 0x0201 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * ClearWeeklySchedule                                               |   0x03 |
-| * GetRelayStatusLog                                                 |   0x04 |
-| * GetWeeklySchedule                                                 |   0x02 |
-| * SetWeeklySchedule                                                 |   0x01 |
-| * SetpointRaiseLower                                                |   0x00 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * LocalTemperature                                                  | 0x0000 |
-| * AbsMinHeatSetpointLimit                                           | 0x0003 |
-| * AbsMaxHeatSetpointLimit                                           | 0x0004 |
-| * AbsMinCoolSetpointLimit                                           | 0x0005 |
-| * AbsMaxCoolSetpointLimit                                           | 0x0006 |
-| * OccupiedCoolingSetpoint                                           | 0x0011 |
-| * OccupiedHeatingSetpoint                                           | 0x0012 |
-| * MinHeatSetpointLimit                                              | 0x0015 |
-| * MaxHeatSetpointLimit                                              | 0x0016 |
-| * MinCoolSetpointLimit                                              | 0x0017 |
-| * MaxCoolSetpointLimit                                              | 0x0018 |
-| * MinSetpointDeadBand                                               | 0x0019 |
-| * ControlSequenceOfOperation                                        | 0x001B |
-| * SystemMode                                                        | 0x001C |
-| * StartOfWeek                                                       | 0x0020 |
-| * NumberOfWeeklyTransitions                                         | 0x0021 |
-| * NumberOfDailyTransitions                                          | 0x0022 |
-| * FeatureMap                                                        | 0xFFFC |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Command ClearWeeklySchedule
- */
-class ThermostatClearWeeklySchedule : public ModelCommand
+class ReportThreadNetworkDiagnosticsTxAckedCount : public ModelCommand
 {
 public:
-    ThermostatClearWeeklySchedule() : ModelCommand("clear-weekly-schedule") { ModelCommand::AddArguments(); }
+    ReportThreadNetworkDiagnosticsTxAckedCount() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "tx-acked-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportThreadNetworkDiagnosticsTxAckedCount()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000201) command (0x00000003) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
-    }
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
 
-private:
-    chip::app::Clusters::Thermostat::Commands::ClearWeeklySchedule::Type mRequest;
-};
+        ReturnErrorOnFailure(cluster.ReportAttributeTxAckedCount(onReportCallback->Cancel()));
 
-/*
- * Command GetRelayStatusLog
- */
-class ThermostatGetRelayStatusLog : public ModelCommand
-{
-public:
-    ThermostatGetRelayStatusLog() : ModelCommand("get-relay-status-log") { ModelCommand::AddArguments(); }
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTxAckedCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000201) command (0x00000004) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::Thermostat::Commands::GetRelayStatusLog::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command GetWeeklySchedule
+ * Attribute TxNoAckRequestedCount
  */
-class ThermostatGetWeeklySchedule : public ModelCommand
+class ReadThreadNetworkDiagnosticsTxNoAckRequestedCount : public ModelCommand
 {
 public:
-    ThermostatGetWeeklySchedule() : ModelCommand("get-weekly-schedule")
+    ReadThreadNetworkDiagnosticsTxNoAckRequestedCount() : ModelCommand("read")
     {
-        AddArgument("DaysToReturn", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<chip::app::Clusters::Thermostat::DayOfWeek> *>(&mRequest.daysToReturn));
-        AddArgument(
-            "ModeToReturn", 0, UINT8_MAX,
-            reinterpret_cast<std::underlying_type_t<chip::app::Clusters::Thermostat::ModeForSequence> *>(&mRequest.modeToReturn));
+        AddArgument("attr-name", "tx-no-ack-requested-count");
         ModelCommand::AddArguments();
     }
 
+    ~ReadThreadNetworkDiagnosticsTxNoAckRequestedCount()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000201) command (0x00000002) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeTxNoAckRequestedCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::Thermostat::Commands::GetWeeklySchedule::Type mRequest;
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command SetWeeklySchedule
- */
-class ThermostatSetWeeklySchedule : public ModelCommand
+class ReportThreadNetworkDiagnosticsTxNoAckRequestedCount : public ModelCommand
 {
 public:
-    ThermostatSetWeeklySchedule() : ModelCommand("set-weekly-schedule")
+    ReportThreadNetworkDiagnosticsTxNoAckRequestedCount() : ModelCommand("report")
     {
-        AddArgument("NumberOfTransitionsForSequence", 0, UINT8_MAX, &mRequest.numberOfTransitionsForSequence);
-        AddArgument(
-            "DayOfWeekForSequence", 0, UINT8_MAX,
-            reinterpret_cast<std::underlying_type_t<chip::app::Clusters::Thermostat::DayOfWeek> *>(&mRequest.dayOfWeekForSequence));
-        AddArgument("ModeForSequence", 0, UINT8_MAX,
-                    reinterpret_cast<std::underlying_type_t<chip::app::Clusters::Thermostat::ModeForSequence> *>(
-                        &mRequest.modeForSequence));
-        // payload Array parsing is not supported yet
+        AddArgument("attr-name", "tx-no-ack-requested-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
+    ~ReportThreadNetworkDiagnosticsTxNoAckRequestedCount()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000201) command (0x00000001) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
-    }
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
 
-private:
-    chip::app::Clusters::Thermostat::Commands::SetWeeklySchedule::Type mRequest;
-};
+        ReturnErrorOnFailure(cluster.ReportAttributeTxNoAckRequestedCount(onReportCallback->Cancel()));
 
-/*
- * Command SetpointRaiseLower
- */
-class ThermostatSetpointRaiseLower : public ModelCommand
-{
-public:
-    ThermostatSetpointRaiseLower() : ModelCommand("setpoint-raise-lower")
-    {
-        AddArgument("Mode", 0, UINT8_MAX, reinterpret_cast<std::underlying_type_t<decltype(mRequest.mode)> *>(&mRequest.mode));
-        AddArgument("Amount", INT8_MIN, INT8_MAX, &mRequest.amount);
-        ModelCommand::AddArguments();
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTxNoAckRequestedCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                               mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000201) command (0x00000000) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::Thermostat::Commands::SetpointRaiseLower::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute LocalTemperature
+ * Attribute TxDataCount
  */
-class ReadThermostatLocalTemperature : public ModelCommand
+class ReadThreadNetworkDiagnosticsTxDataCount : public ModelCommand
 {
 public:
-    ReadThermostatLocalTemperature() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsTxDataCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "local-temperature");
+        AddArgument("attr-name", "tx-data-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatLocalTemperature()
+    ~ReadThreadNetworkDiagnosticsTxDataCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -24573,33 +44933,33 @@ class ReadThermostatLocalTemperature : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeLocalTemperature(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTxDataCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class ReportThermostatLocalTemperature : public ModelCommand
+class ReportThreadNetworkDiagnosticsTxDataCount : public ModelCommand
 {
 public:
-    ReportThermostatLocalTemperature() : ModelCommand("report")
+    ReportThreadNetworkDiagnosticsTxDataCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "local-temperature");
+        AddArgument("attr-name", "tx-data-count");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportThermostatLocalTemperature()
+    ~ReportThreadNetworkDiagnosticsTxDataCount()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -24609,15 +44969,15 @@ class ReportThermostatLocalTemperature : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x06) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeLocalTemperature(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeTxDataCount(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeLocalTemperature(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeTxDataCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -24632,26 +44992,26 @@ class ReportThermostatLocalTemperature : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<Int16sAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeReport, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
     uint16_t mMinInterval;
     uint16_t mMaxInterval;
     bool mWait;
 };
 
 /*
- * Attribute AbsMinHeatSetpointLimit
+ * Attribute TxDataPollCount
  */
-class ReadThermostatAbsMinHeatSetpointLimit : public ModelCommand
+class ReadThreadNetworkDiagnosticsTxDataPollCount : public ModelCommand
 {
 public:
-    ReadThermostatAbsMinHeatSetpointLimit() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsTxDataPollCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "abs-min-heat-setpoint-limit");
+        AddArgument("attr-name", "tx-data-poll-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatAbsMinHeatSetpointLimit()
+    ~ReadThreadNetworkDiagnosticsTxDataPollCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -24659,67 +45019,85 @@ class ReadThermostatAbsMinHeatSetpointLimit : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeAbsMinHeatSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTxDataPollCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute AbsMaxHeatSetpointLimit
- */
-class ReadThermostatAbsMaxHeatSetpointLimit : public ModelCommand
+class ReportThreadNetworkDiagnosticsTxDataPollCount : public ModelCommand
 {
 public:
-    ReadThermostatAbsMaxHeatSetpointLimit() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsTxDataPollCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "abs-max-heat-setpoint-limit");
+        AddArgument("attr-name", "tx-data-poll-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatAbsMaxHeatSetpointLimit()
+    ~ReportThreadNetworkDiagnosticsTxDataPollCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeAbsMaxHeatSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTxDataPollCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTxDataPollCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute AbsMinCoolSetpointLimit
+ * Attribute TxBeaconCount
  */
-class ReadThermostatAbsMinCoolSetpointLimit : public ModelCommand
+class ReadThreadNetworkDiagnosticsTxBeaconCount : public ModelCommand
 {
 public:
-    ReadThermostatAbsMinCoolSetpointLimit() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsTxBeaconCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "abs-min-cool-setpoint-limit");
+        AddArgument("attr-name", "tx-beacon-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatAbsMinCoolSetpointLimit()
+    ~ReadThreadNetworkDiagnosticsTxBeaconCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -24727,67 +45105,85 @@ class ReadThermostatAbsMinCoolSetpointLimit : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeAbsMinCoolSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTxBeaconCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute AbsMaxCoolSetpointLimit
- */
-class ReadThermostatAbsMaxCoolSetpointLimit : public ModelCommand
+class ReportThreadNetworkDiagnosticsTxBeaconCount : public ModelCommand
 {
 public:
-    ReadThermostatAbsMaxCoolSetpointLimit() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsTxBeaconCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "abs-max-cool-setpoint-limit");
+        AddArgument("attr-name", "tx-beacon-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatAbsMaxCoolSetpointLimit()
+    ~ReportThreadNetworkDiagnosticsTxBeaconCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeAbsMaxCoolSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTxBeaconCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTxBeaconCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute OccupiedCoolingSetpoint
+ * Attribute TxBeaconRequestCount
  */
-class ReadThermostatOccupiedCoolingSetpoint : public ModelCommand
+class ReadThreadNetworkDiagnosticsTxBeaconRequestCount : public ModelCommand
 {
 public:
-    ReadThermostatOccupiedCoolingSetpoint() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsTxBeaconRequestCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "occupied-cooling-setpoint");
+        AddArgument("attr-name", "tx-beacon-request-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatOccupiedCoolingSetpoint()
+    ~ReadThreadNetworkDiagnosticsTxBeaconRequestCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -24795,66 +45191,86 @@ class ReadThermostatOccupiedCoolingSetpoint : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOccupiedCoolingSetpoint(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTxBeaconRequestCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteThermostatOccupiedCoolingSetpoint : public ModelCommand
+class ReportThreadNetworkDiagnosticsTxBeaconRequestCount : public ModelCommand
 {
 public:
-    WriteThermostatOccupiedCoolingSetpoint() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsTxBeaconRequestCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "occupied-cooling-setpoint");
-        AddArgument("attr-value", INT16_MIN, INT16_MAX, &mValue);
+        AddArgument("attr-name", "tx-beacon-request-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteThermostatOccupiedCoolingSetpoint()
+    ~ReportThreadNetworkDiagnosticsTxBeaconRequestCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeOccupiedCoolingSetpoint(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTxBeaconRequestCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTxBeaconRequestCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                              mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    int16_t mValue;
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute OccupiedHeatingSetpoint
+ * Attribute TxOtherCount
  */
-class ReadThermostatOccupiedHeatingSetpoint : public ModelCommand
+class ReadThreadNetworkDiagnosticsTxOtherCount : public ModelCommand
 {
 public:
-    ReadThermostatOccupiedHeatingSetpoint() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsTxOtherCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "occupied-heating-setpoint");
+        AddArgument("attr-name", "tx-other-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatOccupiedHeatingSetpoint()
+    ~ReadThreadNetworkDiagnosticsTxOtherCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -24862,66 +45278,85 @@ class ReadThermostatOccupiedHeatingSetpoint : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOccupiedHeatingSetpoint(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTxOtherCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteThermostatOccupiedHeatingSetpoint : public ModelCommand
+class ReportThreadNetworkDiagnosticsTxOtherCount : public ModelCommand
 {
 public:
-    WriteThermostatOccupiedHeatingSetpoint() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsTxOtherCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "occupied-heating-setpoint");
-        AddArgument("attr-value", INT16_MIN, INT16_MAX, &mValue);
+        AddArgument("attr-name", "tx-other-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteThermostatOccupiedHeatingSetpoint()
+    ~ReportThreadNetworkDiagnosticsTxOtherCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeOccupiedHeatingSetpoint(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTxOtherCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTxOtherCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    int16_t mValue;
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute MinHeatSetpointLimit
+ * Attribute TxRetryCount
  */
-class ReadThermostatMinHeatSetpointLimit : public ModelCommand
+class ReadThreadNetworkDiagnosticsTxRetryCount : public ModelCommand
 {
 public:
-    ReadThermostatMinHeatSetpointLimit() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsTxRetryCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "min-heat-setpoint-limit");
+        AddArgument("attr-name", "tx-retry-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatMinHeatSetpointLimit()
+    ~ReadThreadNetworkDiagnosticsTxRetryCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -24929,66 +45364,85 @@ class ReadThermostatMinHeatSetpointLimit : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMinHeatSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTxRetryCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteThermostatMinHeatSetpointLimit : public ModelCommand
+class ReportThreadNetworkDiagnosticsTxRetryCount : public ModelCommand
 {
 public:
-    WriteThermostatMinHeatSetpointLimit() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsTxRetryCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "min-heat-setpoint-limit");
-        AddArgument("attr-value", INT16_MIN, INT16_MAX, &mValue);
+        AddArgument("attr-name", "tx-retry-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteThermostatMinHeatSetpointLimit()
+    ~ReportThreadNetworkDiagnosticsTxRetryCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeMinHeatSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTxRetryCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTxRetryCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    int16_t mValue;
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute MaxHeatSetpointLimit
+ * Attribute TxDirectMaxRetryExpiryCount
  */
-class ReadThermostatMaxHeatSetpointLimit : public ModelCommand
+class ReadThreadNetworkDiagnosticsTxDirectMaxRetryExpiryCount : public ModelCommand
 {
 public:
-    ReadThermostatMaxHeatSetpointLimit() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsTxDirectMaxRetryExpiryCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "max-heat-setpoint-limit");
+        AddArgument("attr-name", "tx-direct-max-retry-expiry-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatMaxHeatSetpointLimit()
+    ~ReadThreadNetworkDiagnosticsTxDirectMaxRetryExpiryCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -24996,66 +45450,86 @@ class ReadThermostatMaxHeatSetpointLimit : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMaxHeatSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTxDirectMaxRetryExpiryCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteThermostatMaxHeatSetpointLimit : public ModelCommand
+class ReportThreadNetworkDiagnosticsTxDirectMaxRetryExpiryCount : public ModelCommand
 {
 public:
-    WriteThermostatMaxHeatSetpointLimit() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsTxDirectMaxRetryExpiryCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "max-heat-setpoint-limit");
-        AddArgument("attr-value", INT16_MIN, INT16_MAX, &mValue);
+        AddArgument("attr-name", "tx-direct-max-retry-expiry-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteThermostatMaxHeatSetpointLimit()
+    ~ReportThreadNetworkDiagnosticsTxDirectMaxRetryExpiryCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeMaxHeatSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTxDirectMaxRetryExpiryCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTxDirectMaxRetryExpiryCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                     mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    int16_t mValue;
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute MinCoolSetpointLimit
+ * Attribute TxIndirectMaxRetryExpiryCount
  */
-class ReadThermostatMinCoolSetpointLimit : public ModelCommand
+class ReadThreadNetworkDiagnosticsTxIndirectMaxRetryExpiryCount : public ModelCommand
 {
 public:
-    ReadThermostatMinCoolSetpointLimit() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsTxIndirectMaxRetryExpiryCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "min-cool-setpoint-limit");
+        AddArgument("attr-name", "tx-indirect-max-retry-expiry-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatMinCoolSetpointLimit()
+    ~ReadThreadNetworkDiagnosticsTxIndirectMaxRetryExpiryCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -25063,66 +45537,86 @@ class ReadThermostatMinCoolSetpointLimit : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMinCoolSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTxIndirectMaxRetryExpiryCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteThermostatMinCoolSetpointLimit : public ModelCommand
+class ReportThreadNetworkDiagnosticsTxIndirectMaxRetryExpiryCount : public ModelCommand
 {
 public:
-    WriteThermostatMinCoolSetpointLimit() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsTxIndirectMaxRetryExpiryCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "min-cool-setpoint-limit");
-        AddArgument("attr-value", INT16_MIN, INT16_MAX, &mValue);
+        AddArgument("attr-name", "tx-indirect-max-retry-expiry-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteThermostatMinCoolSetpointLimit()
+    ~ReportThreadNetworkDiagnosticsTxIndirectMaxRetryExpiryCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeMinCoolSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTxIndirectMaxRetryExpiryCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTxIndirectMaxRetryExpiryCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                       mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    int16_t mValue;
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute MaxCoolSetpointLimit
+ * Attribute TxErrCcaCount
  */
-class ReadThermostatMaxCoolSetpointLimit : public ModelCommand
+class ReadThreadNetworkDiagnosticsTxErrCcaCount : public ModelCommand
 {
 public:
-    ReadThermostatMaxCoolSetpointLimit() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsTxErrCcaCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "max-cool-setpoint-limit");
+        AddArgument("attr-name", "tx-err-cca-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatMaxCoolSetpointLimit()
+    ~ReadThreadNetworkDiagnosticsTxErrCcaCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -25130,66 +45624,85 @@ class ReadThermostatMaxCoolSetpointLimit : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMaxCoolSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTxErrCcaCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteThermostatMaxCoolSetpointLimit : public ModelCommand
+class ReportThreadNetworkDiagnosticsTxErrCcaCount : public ModelCommand
 {
 public:
-    WriteThermostatMaxCoolSetpointLimit() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsTxErrCcaCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "max-cool-setpoint-limit");
-        AddArgument("attr-value", INT16_MIN, INT16_MAX, &mValue);
+        AddArgument("attr-name", "tx-err-cca-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteThermostatMaxCoolSetpointLimit()
+    ~ReportThreadNetworkDiagnosticsTxErrCcaCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeMaxCoolSetpointLimit(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTxErrCcaCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTxErrCcaCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    int16_t mValue;
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute MinSetpointDeadBand
+ * Attribute TxErrAbortCount
  */
-class ReadThermostatMinSetpointDeadBand : public ModelCommand
+class ReadThreadNetworkDiagnosticsTxErrAbortCount : public ModelCommand
 {
 public:
-    ReadThermostatMinSetpointDeadBand() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsTxErrAbortCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "min-setpoint-dead-band");
+        AddArgument("attr-name", "tx-err-abort-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatMinSetpointDeadBand()
+    ~ReadThreadNetworkDiagnosticsTxErrAbortCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -25197,98 +45710,85 @@ class ReadThermostatMinSetpointDeadBand : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMinSetpointDeadBand(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTxErrAbortCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8sAttributeCallback>(OnInt8sAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteThermostatMinSetpointDeadBand : public ModelCommand
+class ReportThreadNetworkDiagnosticsTxErrAbortCount : public ModelCommand
 {
 public:
-    WriteThermostatMinSetpointDeadBand() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsTxErrAbortCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "min-setpoint-dead-band");
-        AddArgument("attr-value", INT8_MIN, INT8_MAX, &mValue);
+        AddArgument("attr-name", "tx-err-abort-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteThermostatMinSetpointDeadBand()
+    ~ReportThreadNetworkDiagnosticsTxErrAbortCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeMinSetpointDeadBand(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
-    }
-
-private:
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    int8_t mValue;
-};
 
-/*
- * Attribute ControlSequenceOfOperation
- */
-class ReadThermostatControlSequenceOfOperation : public ModelCommand
-{
-public:
-    ReadThermostatControlSequenceOfOperation() : ModelCommand("read")
-    {
-        AddArgument("attr-name", "control-sequence-of-operation");
-        ModelCommand::AddArguments();
-    }
+        ReturnErrorOnFailure(cluster.ReportAttributeTxErrAbortCount(onReportCallback->Cancel()));
 
-    ~ReadThermostatControlSequenceOfOperation()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTxErrAbortCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
-
-        chip::Controller::ThermostatCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeControlSequenceOfOperation(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-class WriteThermostatControlSequenceOfOperation : public ModelCommand
+/*
+ * Attribute TxErrBusyChannelCount
+ */
+class ReadThreadNetworkDiagnosticsTxErrBusyChannelCount : public ModelCommand
 {
 public:
-    WriteThermostatControlSequenceOfOperation() : ModelCommand("write")
+    ReadThreadNetworkDiagnosticsTxErrBusyChannelCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "control-sequence-of-operation");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "tx-err-busy-channel-count");
         ModelCommand::AddArguments();
     }
 
-    ~WriteThermostatControlSequenceOfOperation()
+    ~ReadThreadNetworkDiagnosticsTxErrBusyChannelCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -25296,66 +45796,86 @@ class WriteThermostatControlSequenceOfOperation : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeControlSequenceOfOperation(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return cluster.ReadAttributeTxErrBusyChannelCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
 };
 
-/*
- * Attribute SystemMode
- */
-class ReadThermostatSystemMode : public ModelCommand
+class ReportThreadNetworkDiagnosticsTxErrBusyChannelCount : public ModelCommand
 {
 public:
-    ReadThermostatSystemMode() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsTxErrBusyChannelCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "system-mode");
+        AddArgument("attr-name", "tx-err-busy-channel-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatSystemMode()
+    ~ReportThreadNetworkDiagnosticsTxErrBusyChannelCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeSystemMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTxErrBusyChannelCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTxErrBusyChannelCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                               mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-class WriteThermostatSystemMode : public ModelCommand
+/*
+ * Attribute RxTotalCount
+ */
+class ReadThreadNetworkDiagnosticsRxTotalCount : public ModelCommand
 {
 public:
-    WriteThermostatSystemMode() : ModelCommand("write")
+    ReadThreadNetworkDiagnosticsRxTotalCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "system-mode");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "rx-total-count");
         ModelCommand::AddArguments();
     }
 
-    ~WriteThermostatSystemMode()
+    ~ReadThreadNetworkDiagnosticsRxTotalCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -25363,68 +45883,85 @@ class WriteThermostatSystemMode : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeSystemMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+        return cluster.ReadAttributeRxTotalCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
-        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
 };
 
-/*
- * Attribute StartOfWeek
- */
-class ReadThermostatStartOfWeek : public ModelCommand
+class ReportThreadNetworkDiagnosticsRxTotalCount : public ModelCommand
 {
 public:
-    ReadThermostatStartOfWeek() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsRxTotalCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "start-of-week");
+        AddArgument("attr-name", "rx-total-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatStartOfWeek()
+    ~ReportThreadNetworkDiagnosticsRxTotalCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeStartOfWeek(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRxTotalCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRxTotalCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute NumberOfWeeklyTransitions
+ * Attribute RxUnicastCount
  */
-class ReadThermostatNumberOfWeeklyTransitions : public ModelCommand
+class ReadThreadNetworkDiagnosticsRxUnicastCount : public ModelCommand
 {
 public:
-    ReadThermostatNumberOfWeeklyTransitions() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsRxUnicastCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "number-of-weekly-transitions");
+        AddArgument("attr-name", "rx-unicast-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatNumberOfWeeklyTransitions()
+    ~ReadThreadNetworkDiagnosticsRxUnicastCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -25432,67 +45969,85 @@ class ReadThermostatNumberOfWeeklyTransitions : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNumberOfWeeklyTransitions(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRxUnicastCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute NumberOfDailyTransitions
- */
-class ReadThermostatNumberOfDailyTransitions : public ModelCommand
+class ReportThreadNetworkDiagnosticsRxUnicastCount : public ModelCommand
 {
 public:
-    ReadThermostatNumberOfDailyTransitions() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsRxUnicastCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "number-of-daily-transitions");
+        AddArgument("attr-name", "rx-unicast-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatNumberOfDailyTransitions()
+    ~ReportThreadNetworkDiagnosticsRxUnicastCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNumberOfDailyTransitions(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRxUnicastCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRxUnicastCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute FeatureMap
+ * Attribute RxBroadcastCount
  */
-class ReadThermostatFeatureMap : public ModelCommand
+class ReadThreadNetworkDiagnosticsRxBroadcastCount : public ModelCommand
 {
 public:
-    ReadThermostatFeatureMap() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsRxBroadcastCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "feature-map");
+        AddArgument("attr-name", "rx-broadcast-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatFeatureMap()
+    ~ReadThreadNetworkDiagnosticsRxBroadcastCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -25500,11 +46055,11 @@ class ReadThermostatFeatureMap : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeFeatureMap(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRxBroadcastCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -25514,65 +46069,71 @@ class ReadThermostatFeatureMap : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadThermostatClusterRevision : public ModelCommand
+class ReportThreadNetworkDiagnosticsRxBroadcastCount : public ModelCommand
 {
 public:
-    ReadThermostatClusterRevision() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsRxBroadcastCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "rx-broadcast-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatClusterRevision()
+    ~ReportThreadNetworkDiagnosticsRxBroadcastCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0201) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRxBroadcastCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRxBroadcastCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster ThermostatUserInterfaceConfiguration                        | 0x0204 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * TemperatureDisplayMode                                            | 0x0000 |
-| * KeypadLockout                                                     | 0x0001 |
-| * ScheduleProgrammingVisibility                                     | 0x0002 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
 /*
- * Attribute TemperatureDisplayMode
+ * Attribute RxDataCount
  */
-class ReadThermostatUserInterfaceConfigurationTemperatureDisplayMode : public ModelCommand
+class ReadThreadNetworkDiagnosticsRxDataCount : public ModelCommand
 {
 public:
-    ReadThermostatUserInterfaceConfigurationTemperatureDisplayMode() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsRxDataCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "temperature-display-mode");
+        AddArgument("attr-name", "rx-data-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatUserInterfaceConfigurationTemperatureDisplayMode()
+    ~ReadThreadNetworkDiagnosticsRxDataCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -25580,66 +46141,85 @@ class ReadThermostatUserInterfaceConfigurationTemperatureDisplayMode : public Mo
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0204) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTemperatureDisplayMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRxDataCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteThermostatUserInterfaceConfigurationTemperatureDisplayMode : public ModelCommand
+class ReportThreadNetworkDiagnosticsRxDataCount : public ModelCommand
 {
 public:
-    WriteThermostatUserInterfaceConfigurationTemperatureDisplayMode() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsRxDataCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "temperature-display-mode");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "rx-data-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteThermostatUserInterfaceConfigurationTemperatureDisplayMode()
+    ~ReportThreadNetworkDiagnosticsRxDataCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0204) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeTemperatureDisplayMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRxDataCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRxDataCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute KeypadLockout
+ * Attribute RxDataPollCount
  */
-class ReadThermostatUserInterfaceConfigurationKeypadLockout : public ModelCommand
+class ReadThreadNetworkDiagnosticsRxDataPollCount : public ModelCommand
 {
 public:
-    ReadThermostatUserInterfaceConfigurationKeypadLockout() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsRxDataPollCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "keypad-lockout");
+        AddArgument("attr-name", "rx-data-poll-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatUserInterfaceConfigurationKeypadLockout()
+    ~ReadThreadNetworkDiagnosticsRxDataPollCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -25647,66 +46227,85 @@ class ReadThermostatUserInterfaceConfigurationKeypadLockout : public ModelComman
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0204) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeKeypadLockout(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRxDataPollCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteThermostatUserInterfaceConfigurationKeypadLockout : public ModelCommand
+class ReportThreadNetworkDiagnosticsRxDataPollCount : public ModelCommand
 {
 public:
-    WriteThermostatUserInterfaceConfigurationKeypadLockout() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsRxDataPollCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "keypad-lockout");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "rx-data-poll-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteThermostatUserInterfaceConfigurationKeypadLockout()
+    ~ReportThreadNetworkDiagnosticsRxDataPollCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0204) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeKeypadLockout(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRxDataPollCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRxDataPollCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ScheduleProgrammingVisibility
+ * Attribute RxBeaconCount
  */
-class ReadThermostatUserInterfaceConfigurationScheduleProgrammingVisibility : public ModelCommand
+class ReadThreadNetworkDiagnosticsRxBeaconCount : public ModelCommand
 {
 public:
-    ReadThermostatUserInterfaceConfigurationScheduleProgrammingVisibility() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsRxBeaconCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "schedule-programming-visibility");
+        AddArgument("attr-name", "rx-beacon-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatUserInterfaceConfigurationScheduleProgrammingVisibility()
+    ~ReadThreadNetworkDiagnosticsRxBeaconCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -25714,67 +46313,85 @@ class ReadThermostatUserInterfaceConfigurationScheduleProgrammingVisibility : pu
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0204) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeScheduleProgrammingVisibility(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRxBeaconCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class WriteThermostatUserInterfaceConfigurationScheduleProgrammingVisibility : public ModelCommand
+class ReportThreadNetworkDiagnosticsRxBeaconCount : public ModelCommand
 {
 public:
-    WriteThermostatUserInterfaceConfigurationScheduleProgrammingVisibility() : ModelCommand("write")
+    ReportThreadNetworkDiagnosticsRxBeaconCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "schedule-programming-visibility");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("attr-name", "rx-beacon-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteThermostatUserInterfaceConfigurationScheduleProgrammingVisibility()
+    ~ReportThreadNetworkDiagnosticsRxBeaconCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0204) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeScheduleProgrammingVisibility(onSuccessCallback->Cancel(), onFailureCallback->Cancel(),
-                                                                   mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRxBeaconCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRxBeaconCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute RxBeaconRequestCount
  */
-class ReadThermostatUserInterfaceConfigurationClusterRevision : public ModelCommand
+class ReadThreadNetworkDiagnosticsRxBeaconRequestCount : public ModelCommand
 {
 public:
-    ReadThermostatUserInterfaceConfigurationClusterRevision() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsRxBeaconRequestCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "rx-beacon-request-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThermostatUserInterfaceConfigurationClusterRevision()
+    ~ReadThreadNetworkDiagnosticsRxBeaconRequestCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -25782,125 +46399,86 @@ class ReadThermostatUserInterfaceConfigurationClusterRevision : public ModelComm
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0204) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThermostatUserInterfaceConfigurationCluster cluster;
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRxBeaconRequestCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster ThreadNetworkDiagnostics                                    | 0x0035 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * ResetCounts                                                       |   0x00 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * Channel                                                           | 0x0000 |
-| * RoutingRole                                                       | 0x0001 |
-| * NetworkName                                                       | 0x0002 |
-| * PanId                                                             | 0x0003 |
-| * ExtendedPanId                                                     | 0x0004 |
-| * MeshLocalPrefix                                                   | 0x0005 |
-| * OverrunCount                                                      | 0x0006 |
-| * NeighborTableList                                                 | 0x0007 |
-| * RouteTableList                                                    | 0x0008 |
-| * PartitionId                                                       | 0x0009 |
-| * Weighting                                                         | 0x000A |
-| * DataVersion                                                       | 0x000B |
-| * StableDataVersion                                                 | 0x000C |
-| * LeaderRouterId                                                    | 0x000D |
-| * DetachedRoleCount                                                 | 0x000E |
-| * ChildRoleCount                                                    | 0x000F |
-| * RouterRoleCount                                                   | 0x0010 |
-| * LeaderRoleCount                                                   | 0x0011 |
-| * AttachAttemptCount                                                | 0x0012 |
-| * PartitionIdChangeCount                                            | 0x0013 |
-| * BetterPartitionAttachAttemptCount                                 | 0x0014 |
-| * ParentChangeCount                                                 | 0x0015 |
-| * TxTotalCount                                                      | 0x0016 |
-| * TxUnicastCount                                                    | 0x0017 |
-| * TxBroadcastCount                                                  | 0x0018 |
-| * TxAckRequestedCount                                               | 0x0019 |
-| * TxAckedCount                                                      | 0x001A |
-| * TxNoAckRequestedCount                                             | 0x001B |
-| * TxDataCount                                                       | 0x001C |
-| * TxDataPollCount                                                   | 0x001D |
-| * TxBeaconCount                                                     | 0x001E |
-| * TxBeaconRequestCount                                              | 0x001F |
-| * TxOtherCount                                                      | 0x0020 |
-| * TxRetryCount                                                      | 0x0021 |
-| * TxDirectMaxRetryExpiryCount                                       | 0x0022 |
-| * TxIndirectMaxRetryExpiryCount                                     | 0x0023 |
-| * TxErrCcaCount                                                     | 0x0024 |
-| * TxErrAbortCount                                                   | 0x0025 |
-| * TxErrBusyChannelCount                                             | 0x0026 |
-| * RxTotalCount                                                      | 0x0027 |
-| * RxUnicastCount                                                    | 0x0028 |
-| * RxBroadcastCount                                                  | 0x0029 |
-| * RxDataCount                                                       | 0x002A |
-| * RxDataPollCount                                                   | 0x002B |
-| * RxBeaconCount                                                     | 0x002C |
-| * RxBeaconRequestCount                                              | 0x002D |
-| * RxOtherCount                                                      | 0x002E |
-| * RxAddressFilteredCount                                            | 0x002F |
-| * RxDestAddrFilteredCount                                           | 0x0030 |
-| * RxDuplicatedCount                                                 | 0x0031 |
-| * RxErrNoFrameCount                                                 | 0x0032 |
-| * RxErrUnknownNeighborCount                                         | 0x0033 |
-| * RxErrInvalidSrcAddrCount                                          | 0x0034 |
-| * RxErrSecCount                                                     | 0x0035 |
-| * RxErrFcsCount                                                     | 0x0036 |
-| * RxErrOtherCount                                                   | 0x0037 |
-| * ActiveTimestamp                                                   | 0x0038 |
-| * PendingTimestamp                                                  | 0x0039 |
-| * Delay                                                             | 0x003A |
-| * SecurityPolicy                                                    | 0x003B |
-| * ChannelMask                                                       | 0x003C |
-| * OperationalDatasetComponents                                      | 0x003D |
-| * ActiveNetworkFaultsList                                           | 0x003E |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Command ResetCounts
- */
-class ThreadNetworkDiagnosticsResetCounts : public ModelCommand
+class ReportThreadNetworkDiagnosticsRxBeaconRequestCount : public ModelCommand
 {
 public:
-    ThreadNetworkDiagnosticsResetCounts() : ModelCommand("reset-counts") { ModelCommand::AddArguments(); }
+    ReportThreadNetworkDiagnosticsRxBeaconRequestCount() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "rx-beacon-request-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportThreadNetworkDiagnosticsRxBeaconRequestCount()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000035) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRxBeaconRequestCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRxBeaconRequestCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                              mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::ThreadNetworkDiagnostics::Commands::ResetCounts::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute Channel
+ * Attribute RxOtherCount
  */
-class ReadThreadNetworkDiagnosticsChannel : public ModelCommand
+class ReadThreadNetworkDiagnosticsRxOtherCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsChannel() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsRxOtherCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "channel");
+        AddArgument("attr-name", "rx-other-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsChannel()
+    ~ReadThreadNetworkDiagnosticsRxOtherCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -25912,63 +46490,81 @@ class ReadThreadNetworkDiagnosticsChannel : public ModelCommand
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeChannel(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRxOtherCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute RoutingRole
- */
-class ReadThreadNetworkDiagnosticsRoutingRole : public ModelCommand
+class ReportThreadNetworkDiagnosticsRxOtherCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRoutingRole() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsRxOtherCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "routing-role");
+        AddArgument("attr-name", "rx-other-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRoutingRole()
+    ~ReportThreadNetworkDiagnosticsRxOtherCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRoutingRole(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRxOtherCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRxOtherCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute NetworkName
+ * Attribute RxAddressFilteredCount
  */
-class ReadThreadNetworkDiagnosticsNetworkName : public ModelCommand
+class ReadThreadNetworkDiagnosticsRxAddressFilteredCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsNetworkName() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsRxAddressFilteredCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "network-name");
+        AddArgument("attr-name", "rx-address-filtered-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsNetworkName()
+    ~ReadThreadNetworkDiagnosticsRxAddressFilteredCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -25980,63 +46576,82 @@ class ReadThreadNetworkDiagnosticsNetworkName : public ModelCommand
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNetworkName(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRxAddressFilteredCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute PanId
- */
-class ReadThreadNetworkDiagnosticsPanId : public ModelCommand
+class ReportThreadNetworkDiagnosticsRxAddressFilteredCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsPanId() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsRxAddressFilteredCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "pan-id");
+        AddArgument("attr-name", "rx-address-filtered-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsPanId()
+    ~ReportThreadNetworkDiagnosticsRxAddressFilteredCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePanId(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRxAddressFilteredCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRxAddressFilteredCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ExtendedPanId
+ * Attribute RxDestAddrFilteredCount
  */
-class ReadThreadNetworkDiagnosticsExtendedPanId : public ModelCommand
+class ReadThreadNetworkDiagnosticsRxDestAddrFilteredCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsExtendedPanId() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsRxDestAddrFilteredCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "extended-pan-id");
+        AddArgument("attr-name", "rx-dest-addr-filtered-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsExtendedPanId()
+    ~ReadThreadNetworkDiagnosticsRxDestAddrFilteredCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -26048,63 +46663,82 @@ class ReadThreadNetworkDiagnosticsExtendedPanId : public ModelCommand
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeExtendedPanId(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRxDestAddrFilteredCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute MeshLocalPrefix
- */
-class ReadThreadNetworkDiagnosticsMeshLocalPrefix : public ModelCommand
+class ReportThreadNetworkDiagnosticsRxDestAddrFilteredCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsMeshLocalPrefix() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsRxDestAddrFilteredCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "mesh-local-prefix");
+        AddArgument("attr-name", "rx-dest-addr-filtered-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsMeshLocalPrefix()
+    ~ReportThreadNetworkDiagnosticsRxDestAddrFilteredCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMeshLocalPrefix(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRxDestAddrFilteredCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRxDestAddrFilteredCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                 mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute OverrunCount
+ * Attribute RxDuplicatedCount
  */
-class ReadThreadNetworkDiagnosticsOverrunCount : public ModelCommand
+class ReadThreadNetworkDiagnosticsRxDuplicatedCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsOverrunCount() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsRxDuplicatedCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "overrun-count");
+        AddArgument("attr-name", "rx-duplicated-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsOverrunCount()
+    ~ReadThreadNetworkDiagnosticsRxDuplicatedCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -26116,64 +46750,82 @@ class ReadThreadNetworkDiagnosticsOverrunCount : public ModelCommand
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOverrunCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRxDuplicatedCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute NeighborTableList
- */
-class ReadThreadNetworkDiagnosticsNeighborTableList : public ModelCommand
+class ReportThreadNetworkDiagnosticsRxDuplicatedCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsNeighborTableList() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsRxDuplicatedCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "neighbor-table-list");
+        AddArgument("attr-name", "rx-duplicated-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsNeighborTableList()
+    ~ReportThreadNetworkDiagnosticsRxDuplicatedCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeNeighborTableList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRxDuplicatedCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRxDuplicatedCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<ThreadNetworkDiagnosticsNeighborTableListListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<ThreadNetworkDiagnosticsNeighborTableListListAttributeCallback>(
-            OnThreadNetworkDiagnosticsNeighborTableListListAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute RouteTableList
+ * Attribute RxErrNoFrameCount
  */
-class ReadThreadNetworkDiagnosticsRouteTableList : public ModelCommand
+class ReadThreadNetworkDiagnosticsRxErrNoFrameCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRouteTableList() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsRxErrNoFrameCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "route-table-list");
+        AddArgument("attr-name", "rx-err-no-frame-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRouteTableList()
+    ~ReadThreadNetworkDiagnosticsRxErrNoFrameCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -26185,64 +46837,82 @@ class ReadThreadNetworkDiagnosticsRouteTableList : public ModelCommand
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRouteTableList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRxErrNoFrameCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<ThreadNetworkDiagnosticsRouteTableListListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<ThreadNetworkDiagnosticsRouteTableListListAttributeCallback>(
-            OnThreadNetworkDiagnosticsRouteTableListListAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute PartitionId
- */
-class ReadThreadNetworkDiagnosticsPartitionId : public ModelCommand
+class ReportThreadNetworkDiagnosticsRxErrNoFrameCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsPartitionId() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsRxErrNoFrameCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "partition-id");
+        AddArgument("attr-name", "rx-err-no-frame-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsPartitionId()
+    ~ReportThreadNetworkDiagnosticsRxErrNoFrameCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePartitionId(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRxErrNoFrameCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRxErrNoFrameCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute Weighting
+ * Attribute RxErrUnknownNeighborCount
  */
-class ReadThreadNetworkDiagnosticsWeighting : public ModelCommand
+class ReadThreadNetworkDiagnosticsRxErrUnknownNeighborCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsWeighting() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsRxErrUnknownNeighborCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "weighting");
+        AddArgument("attr-name", "rx-err-unknown-neighbor-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsWeighting()
+    ~ReadThreadNetworkDiagnosticsRxErrUnknownNeighborCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -26254,63 +46924,82 @@ class ReadThreadNetworkDiagnosticsWeighting : public ModelCommand
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeWeighting(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRxErrUnknownNeighborCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute DataVersion
- */
-class ReadThreadNetworkDiagnosticsDataVersion : public ModelCommand
+class ReportThreadNetworkDiagnosticsRxErrUnknownNeighborCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsDataVersion() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsRxErrUnknownNeighborCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "data-version");
+        AddArgument("attr-name", "rx-err-unknown-neighbor-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsDataVersion()
+    ~ReportThreadNetworkDiagnosticsRxErrUnknownNeighborCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeDataVersion(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRxErrUnknownNeighborCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRxErrUnknownNeighborCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                   mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute StableDataVersion
+ * Attribute RxErrInvalidSrcAddrCount
  */
-class ReadThreadNetworkDiagnosticsStableDataVersion : public ModelCommand
+class ReadThreadNetworkDiagnosticsRxErrInvalidSrcAddrCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsStableDataVersion() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsRxErrInvalidSrcAddrCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "stable-data-version");
+        AddArgument("attr-name", "rx-err-invalid-src-addr-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsStableDataVersion()
+    ~ReadThreadNetworkDiagnosticsRxErrInvalidSrcAddrCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -26322,63 +47011,82 @@ class ReadThreadNetworkDiagnosticsStableDataVersion : public ModelCommand
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeStableDataVersion(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRxErrInvalidSrcAddrCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute LeaderRouterId
- */
-class ReadThreadNetworkDiagnosticsLeaderRouterId : public ModelCommand
+class ReportThreadNetworkDiagnosticsRxErrInvalidSrcAddrCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsLeaderRouterId() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsRxErrInvalidSrcAddrCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "leader-router-id");
+        AddArgument("attr-name", "rx-err-invalid-src-addr-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsLeaderRouterId()
+    ~ReportThreadNetworkDiagnosticsRxErrInvalidSrcAddrCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeLeaderRouterId(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRxErrInvalidSrcAddrCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRxErrInvalidSrcAddrCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                  mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute DetachedRoleCount
+ * Attribute RxErrSecCount
  */
-class ReadThreadNetworkDiagnosticsDetachedRoleCount : public ModelCommand
+class ReadThreadNetworkDiagnosticsRxErrSecCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsDetachedRoleCount() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsRxErrSecCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "detached-role-count");
+        AddArgument("attr-name", "rx-err-sec-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsDetachedRoleCount()
+    ~ReadThreadNetworkDiagnosticsRxErrSecCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -26390,63 +47098,81 @@ class ReadThreadNetworkDiagnosticsDetachedRoleCount : public ModelCommand
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeDetachedRoleCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRxErrSecCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ChildRoleCount
- */
-class ReadThreadNetworkDiagnosticsChildRoleCount : public ModelCommand
+class ReportThreadNetworkDiagnosticsRxErrSecCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsChildRoleCount() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsRxErrSecCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "child-role-count");
+        AddArgument("attr-name", "rx-err-sec-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsChildRoleCount()
+    ~ReportThreadNetworkDiagnosticsRxErrSecCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeChildRoleCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRxErrSecCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRxErrSecCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute RouterRoleCount
+ * Attribute RxErrFcsCount
  */
-class ReadThreadNetworkDiagnosticsRouterRoleCount : public ModelCommand
+class ReadThreadNetworkDiagnosticsRxErrFcsCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRouterRoleCount() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsRxErrFcsCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "router-role-count");
+        AddArgument("attr-name", "rx-err-fcs-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRouterRoleCount()
+    ~ReadThreadNetworkDiagnosticsRxErrFcsCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -26458,63 +47184,81 @@ class ReadThreadNetworkDiagnosticsRouterRoleCount : public ModelCommand
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRouterRoleCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRxErrFcsCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute LeaderRoleCount
- */
-class ReadThreadNetworkDiagnosticsLeaderRoleCount : public ModelCommand
+class ReportThreadNetworkDiagnosticsRxErrFcsCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsLeaderRoleCount() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsRxErrFcsCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "leader-role-count");
+        AddArgument("attr-name", "rx-err-fcs-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsLeaderRoleCount()
+    ~ReportThreadNetworkDiagnosticsRxErrFcsCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeLeaderRoleCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRxErrFcsCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRxErrFcsCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute AttachAttemptCount
+ * Attribute RxErrOtherCount
  */
-class ReadThreadNetworkDiagnosticsAttachAttemptCount : public ModelCommand
+class ReadThreadNetworkDiagnosticsRxErrOtherCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsAttachAttemptCount() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsRxErrOtherCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "attach-attempt-count");
+        AddArgument("attr-name", "rx-err-other-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsAttachAttemptCount()
+    ~ReadThreadNetworkDiagnosticsRxErrOtherCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -26526,63 +47270,81 @@ class ReadThreadNetworkDiagnosticsAttachAttemptCount : public ModelCommand
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeAttachAttemptCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRxErrOtherCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute PartitionIdChangeCount
- */
-class ReadThreadNetworkDiagnosticsPartitionIdChangeCount : public ModelCommand
+class ReportThreadNetworkDiagnosticsRxErrOtherCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsPartitionIdChangeCount() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsRxErrOtherCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "partition-id-change-count");
+        AddArgument("attr-name", "rx-err-other-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsPartitionIdChangeCount()
+    ~ReportThreadNetworkDiagnosticsRxErrOtherCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePartitionIdChangeCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRxErrOtherCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRxErrOtherCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute BetterPartitionAttachAttemptCount
+ * Attribute ActiveTimestamp
  */
-class ReadThreadNetworkDiagnosticsBetterPartitionAttachAttemptCount : public ModelCommand
+class ReadThreadNetworkDiagnosticsActiveTimestamp : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsBetterPartitionAttachAttemptCount() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsActiveTimestamp() : ModelCommand("read")
     {
-        AddArgument("attr-name", "better-partition-attach-attempt-count");
+        AddArgument("attr-name", "active-timestamp");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsBetterPartitionAttachAttemptCount()
+    ~ReadThreadNetworkDiagnosticsActiveTimestamp()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -26594,63 +47356,81 @@ class ReadThreadNetworkDiagnosticsBetterPartitionAttachAttemptCount : public Mod
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeBetterPartitionAttachAttemptCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeActiveTimestamp(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ParentChangeCount
- */
-class ReadThreadNetworkDiagnosticsParentChangeCount : public ModelCommand
+class ReportThreadNetworkDiagnosticsActiveTimestamp : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsParentChangeCount() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsActiveTimestamp() : ModelCommand("report")
     {
-        AddArgument("attr-name", "parent-change-count");
+        AddArgument("attr-name", "active-timestamp");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsParentChangeCount()
+    ~ReportThreadNetworkDiagnosticsActiveTimestamp()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeParentChangeCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeActiveTimestamp(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeActiveTimestamp(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute TxTotalCount
+ * Attribute PendingTimestamp
  */
-class ReadThreadNetworkDiagnosticsTxTotalCount : public ModelCommand
+class ReadThreadNetworkDiagnosticsPendingTimestamp : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsTxTotalCount() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsPendingTimestamp() : ModelCommand("read")
     {
-        AddArgument("attr-name", "tx-total-count");
+        AddArgument("attr-name", "pending-timestamp");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsTxTotalCount()
+    ~ReadThreadNetworkDiagnosticsPendingTimestamp()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -26662,63 +47442,81 @@ class ReadThreadNetworkDiagnosticsTxTotalCount : public ModelCommand
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTxTotalCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePendingTimestamp(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute TxUnicastCount
- */
-class ReadThreadNetworkDiagnosticsTxUnicastCount : public ModelCommand
+class ReportThreadNetworkDiagnosticsPendingTimestamp : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsTxUnicastCount() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsPendingTimestamp() : ModelCommand("report")
     {
-        AddArgument("attr-name", "tx-unicast-count");
+        AddArgument("attr-name", "pending-timestamp");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsTxUnicastCount()
+    ~ReportThreadNetworkDiagnosticsPendingTimestamp()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTxUnicastCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributePendingTimestamp(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePendingTimestamp(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute TxBroadcastCount
+ * Attribute Delay
  */
-class ReadThreadNetworkDiagnosticsTxBroadcastCount : public ModelCommand
+class ReadThreadNetworkDiagnosticsDelay : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsTxBroadcastCount() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsDelay() : ModelCommand("read")
     {
-        AddArgument("attr-name", "tx-broadcast-count");
+        AddArgument("attr-name", "delay");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsTxBroadcastCount()
+    ~ReadThreadNetworkDiagnosticsDelay()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -26730,7 +47528,7 @@ class ReadThreadNetworkDiagnosticsTxBroadcastCount : public ModelCommand
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTxBroadcastCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeDelay(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -26740,53 +47538,71 @@ class ReadThreadNetworkDiagnosticsTxBroadcastCount : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute TxAckRequestedCount
- */
-class ReadThreadNetworkDiagnosticsTxAckRequestedCount : public ModelCommand
+class ReportThreadNetworkDiagnosticsDelay : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsTxAckRequestedCount() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsDelay() : ModelCommand("report")
     {
-        AddArgument("attr-name", "tx-ack-requested-count");
+        AddArgument("attr-name", "delay");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsTxAckRequestedCount()
+    ~ReportThreadNetworkDiagnosticsDelay()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTxAckRequestedCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeDelay(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeDelay(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute TxAckedCount
+ * Attribute SecurityPolicy
  */
-class ReadThreadNetworkDiagnosticsTxAckedCount : public ModelCommand
+class ReadThreadNetworkDiagnosticsSecurityPolicy : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsTxAckedCount() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsSecurityPolicy() : ModelCommand("read")
     {
-        AddArgument("attr-name", "tx-acked-count");
+        AddArgument("attr-name", "security-policy");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsTxAckedCount()
+    ~ReadThreadNetworkDiagnosticsSecurityPolicy()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -26798,29 +47614,30 @@ class ReadThreadNetworkDiagnosticsTxAckedCount : public ModelCommand
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTxAckedCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeSecurityPolicy(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<ThreadNetworkDiagnosticsSecurityPolicyListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<ThreadNetworkDiagnosticsSecurityPolicyListAttributeCallback>(
+            OnThreadNetworkDiagnosticsSecurityPolicyListAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
 /*
- * Attribute TxNoAckRequestedCount
+ * Attribute ChannelMask
  */
-class ReadThreadNetworkDiagnosticsTxNoAckRequestedCount : public ModelCommand
+class ReadThreadNetworkDiagnosticsChannelMask : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsTxNoAckRequestedCount() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsChannelMask() : ModelCommand("read")
     {
-        AddArgument("attr-name", "tx-no-ack-requested-count");
+        AddArgument("attr-name", "channel-mask");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsTxNoAckRequestedCount()
+    ~ReadThreadNetworkDiagnosticsChannelMask()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -26832,63 +47649,81 @@ class ReadThreadNetworkDiagnosticsTxNoAckRequestedCount : public ModelCommand
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTxNoAckRequestedCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeChannelMask(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute TxDataCount
- */
-class ReadThreadNetworkDiagnosticsTxDataCount : public ModelCommand
+class ReportThreadNetworkDiagnosticsChannelMask : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsTxDataCount() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsChannelMask() : ModelCommand("report")
     {
-        AddArgument("attr-name", "tx-data-count");
+        AddArgument("attr-name", "channel-mask");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsTxDataCount()
+    ~ReportThreadNetworkDiagnosticsChannelMask()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTxDataCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeChannelMask(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeChannelMask(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute TxDataPollCount
+ * Attribute OperationalDatasetComponents
  */
-class ReadThreadNetworkDiagnosticsTxDataPollCount : public ModelCommand
+class ReadThreadNetworkDiagnosticsOperationalDatasetComponents : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsTxDataPollCount() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsOperationalDatasetComponents() : ModelCommand("read")
     {
-        AddArgument("attr-name", "tx-data-poll-count");
+        AddArgument("attr-name", "operational-dataset-components");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsTxDataPollCount()
+    ~ReadThreadNetworkDiagnosticsOperationalDatasetComponents()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -26900,29 +47735,30 @@ class ReadThreadNetworkDiagnosticsTxDataPollCount : public ModelCommand
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTxDataPollCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeOperationalDatasetComponents(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<ThreadNetworkDiagnosticsOperationalDatasetComponentsListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<ThreadNetworkDiagnosticsOperationalDatasetComponentsListAttributeCallback>(
+            OnThreadNetworkDiagnosticsOperationalDatasetComponentsListAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
 /*
- * Attribute TxBeaconCount
+ * Attribute ActiveNetworkFaultsList
  */
-class ReadThreadNetworkDiagnosticsTxBeaconCount : public ModelCommand
+class ReadThreadNetworkDiagnosticsActiveNetworkFaultsList : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsTxBeaconCount() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsActiveNetworkFaultsList() : ModelCommand("read")
     {
-        AddArgument("attr-name", "tx-beacon-count");
+        AddArgument("attr-name", "active-network-faults-list");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsTxBeaconCount()
+    ~ReadThreadNetworkDiagnosticsActiveNetworkFaultsList()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -26934,29 +47770,30 @@ class ReadThreadNetworkDiagnosticsTxBeaconCount : public ModelCommand
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTxBeaconCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeActiveNetworkFaultsList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<ThreadNetworkDiagnosticsActiveNetworkFaultsListListAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<ThreadNetworkDiagnosticsActiveNetworkFaultsListListAttributeCallback>(
+            OnThreadNetworkDiagnosticsActiveNetworkFaultsListListAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
 /*
- * Attribute TxBeaconRequestCount
+ * Attribute ClusterRevision
  */
-class ReadThreadNetworkDiagnosticsTxBeaconRequestCount : public ModelCommand
+class ReadThreadNetworkDiagnosticsClusterRevision : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsTxBeaconRequestCount() : ModelCommand("read")
+    ReadThreadNetworkDiagnosticsClusterRevision() : ModelCommand("read")
     {
-        AddArgument("attr-name", "tx-beacon-request-count");
+        AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsTxBeaconRequestCount()
+    ~ReadThreadNetworkDiagnosticsClusterRevision()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -26968,63 +47805,91 @@ class ReadThreadNetworkDiagnosticsTxBeaconRequestCount : public ModelCommand
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTxBeaconRequestCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute TxOtherCount
- */
-class ReadThreadNetworkDiagnosticsTxOtherCount : public ModelCommand
+class ReportThreadNetworkDiagnosticsClusterRevision : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsTxOtherCount() : ModelCommand("read")
+    ReportThreadNetworkDiagnosticsClusterRevision() : ModelCommand("report")
     {
-        AddArgument("attr-name", "tx-other-count");
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsTxOtherCount()
+    ~ReportThreadNetworkDiagnosticsClusterRevision()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTxOtherCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
+/*----------------------------------------------------------------------------*\
+| Cluster WakeOnLan                                                   | 0x0503 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * WakeOnLanMacAddress                                               | 0x0000 |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
 /*
- * Attribute TxRetryCount
+ * Attribute WakeOnLanMacAddress
  */
-class ReadThreadNetworkDiagnosticsTxRetryCount : public ModelCommand
+class ReadWakeOnLanWakeOnLanMacAddress : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsTxRetryCount() : ModelCommand("read")
+    ReadWakeOnLanWakeOnLanMacAddress() : ModelCommand("read")
     {
-        AddArgument("attr-name", "tx-retry-count");
+        AddArgument("attr-name", "wake-on-lan-mac-address");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsTxRetryCount()
+    ~ReadWakeOnLanWakeOnLanMacAddress()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -27032,67 +47897,86 @@ class ReadThreadNetworkDiagnosticsTxRetryCount : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0503) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WakeOnLanCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTxRetryCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeWakeOnLanMacAddress(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute TxDirectMaxRetryExpiryCount
- */
-class ReadThreadNetworkDiagnosticsTxDirectMaxRetryExpiryCount : public ModelCommand
+class ReportWakeOnLanWakeOnLanMacAddress : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsTxDirectMaxRetryExpiryCount() : ModelCommand("read")
+    ReportWakeOnLanWakeOnLanMacAddress() : ModelCommand("report")
     {
-        AddArgument("attr-name", "tx-direct-max-retry-expiry-count");
+        AddArgument("attr-name", "wake-on-lan-mac-address");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsTxDirectMaxRetryExpiryCount()
+    ~ReportWakeOnLanWakeOnLanMacAddress()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0503) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WakeOnLanCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTxDirectMaxRetryExpiryCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeWakeOnLanMacAddress(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeWakeOnLanMacAddress(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                             mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute TxIndirectMaxRetryExpiryCount
+ * Attribute ClusterRevision
  */
-class ReadThreadNetworkDiagnosticsTxIndirectMaxRetryExpiryCount : public ModelCommand
+class ReadWakeOnLanClusterRevision : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsTxIndirectMaxRetryExpiryCount() : ModelCommand("read")
+    ReadWakeOnLanClusterRevision() : ModelCommand("read")
     {
-        AddArgument("attr-name", "tx-indirect-max-retry-expiry-count");
+        AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsTxIndirectMaxRetryExpiryCount()
+    ~ReadWakeOnLanClusterRevision()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -27100,101 +47984,127 @@ class ReadThreadNetworkDiagnosticsTxIndirectMaxRetryExpiryCount : public ModelCo
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0503) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WakeOnLanCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTxIndirectMaxRetryExpiryCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute TxErrCcaCount
- */
-class ReadThreadNetworkDiagnosticsTxErrCcaCount : public ModelCommand
+class ReportWakeOnLanClusterRevision : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsTxErrCcaCount() : ModelCommand("read")
+    ReportWakeOnLanClusterRevision() : ModelCommand("report")
     {
-        AddArgument("attr-name", "tx-err-cca-count");
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsTxErrCcaCount()
+    ~ReportWakeOnLanClusterRevision()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0503) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WakeOnLanCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTxErrCcaCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
+/*----------------------------------------------------------------------------*\
+| Cluster WiFiNetworkDiagnostics                                      | 0x0036 |
+|------------------------------------------------------------------------------|
+| Commands:                                                           |        |
+| * ResetCounts                                                       |   0x00 |
+|------------------------------------------------------------------------------|
+| Attributes:                                                         |        |
+| * Bssid                                                             | 0x0000 |
+| * SecurityType                                                      | 0x0001 |
+| * WiFiVersion                                                       | 0x0002 |
+| * ChannelNumber                                                     | 0x0003 |
+| * Rssi                                                              | 0x0004 |
+| * BeaconLostCount                                                   | 0x0005 |
+| * BeaconRxCount                                                     | 0x0006 |
+| * PacketMulticastRxCount                                            | 0x0007 |
+| * PacketMulticastTxCount                                            | 0x0008 |
+| * PacketUnicastRxCount                                              | 0x0009 |
+| * PacketUnicastTxCount                                              | 0x000A |
+| * CurrentMaxRate                                                    | 0x000B |
+| * OverrunCount                                                      | 0x000C |
+| * ClusterRevision                                                   | 0xFFFD |
+\*----------------------------------------------------------------------------*/
+
 /*
- * Attribute TxErrAbortCount
+ * Command ResetCounts
  */
-class ReadThreadNetworkDiagnosticsTxErrAbortCount : public ModelCommand
+class WiFiNetworkDiagnosticsResetCounts : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsTxErrAbortCount() : ModelCommand("read")
-    {
-        AddArgument("attr-name", "tx-err-abort-count");
-        ModelCommand::AddArguments();
-    }
-
-    ~ReadThreadNetworkDiagnosticsTxErrAbortCount()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
+    WiFiNetworkDiagnosticsResetCounts() : ModelCommand("reset-counts") { ModelCommand::AddArguments(); }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000036) command (0x00000000) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTxErrAbortCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::WiFiNetworkDiagnostics::Commands::ResetCounts::Type mRequest;
 };
 
 /*
- * Attribute TxErrBusyChannelCount
+ * Attribute Bssid
  */
-class ReadThreadNetworkDiagnosticsTxErrBusyChannelCount : public ModelCommand
+class ReadWiFiNetworkDiagnosticsBssid : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsTxErrBusyChannelCount() : ModelCommand("read")
+    ReadWiFiNetworkDiagnosticsBssid() : ModelCommand("read")
     {
-        AddArgument("attr-name", "tx-err-busy-channel-count");
+        AddArgument("attr-name", "bssid");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsTxErrBusyChannelCount()
+    ~ReadWiFiNetworkDiagnosticsBssid()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -27202,67 +48112,85 @@ class ReadThreadNetworkDiagnosticsTxErrBusyChannelCount : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTxErrBusyChannelCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeBssid(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute RxTotalCount
- */
-class ReadThreadNetworkDiagnosticsRxTotalCount : public ModelCommand
+class ReportWiFiNetworkDiagnosticsBssid : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRxTotalCount() : ModelCommand("read")
+    ReportWiFiNetworkDiagnosticsBssid() : ModelCommand("report")
     {
-        AddArgument("attr-name", "rx-total-count");
+        AddArgument("attr-name", "bssid");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRxTotalCount()
+    ~ReportWiFiNetworkDiagnosticsBssid()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRxTotalCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeBssid(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeBssid(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute RxUnicastCount
+ * Attribute SecurityType
  */
-class ReadThreadNetworkDiagnosticsRxUnicastCount : public ModelCommand
+class ReadWiFiNetworkDiagnosticsSecurityType : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRxUnicastCount() : ModelCommand("read")
+    ReadWiFiNetworkDiagnosticsSecurityType() : ModelCommand("read")
     {
-        AddArgument("attr-name", "rx-unicast-count");
+        AddArgument("attr-name", "security-type");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRxUnicastCount()
+    ~ReadWiFiNetworkDiagnosticsSecurityType()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -27270,67 +48198,85 @@ class ReadThreadNetworkDiagnosticsRxUnicastCount : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRxUnicastCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeSecurityType(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute RxBroadcastCount
- */
-class ReadThreadNetworkDiagnosticsRxBroadcastCount : public ModelCommand
+class ReportWiFiNetworkDiagnosticsSecurityType : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRxBroadcastCount() : ModelCommand("read")
+    ReportWiFiNetworkDiagnosticsSecurityType() : ModelCommand("report")
     {
-        AddArgument("attr-name", "rx-broadcast-count");
+        AddArgument("attr-name", "security-type");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRxBroadcastCount()
+    ~ReportWiFiNetworkDiagnosticsSecurityType()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRxBroadcastCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeSecurityType(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeSecurityType(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute RxDataCount
+ * Attribute WiFiVersion
  */
-class ReadThreadNetworkDiagnosticsRxDataCount : public ModelCommand
+class ReadWiFiNetworkDiagnosticsWiFiVersion : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRxDataCount() : ModelCommand("read")
+    ReadWiFiNetworkDiagnosticsWiFiVersion() : ModelCommand("read")
     {
-        AddArgument("attr-name", "rx-data-count");
+        AddArgument("attr-name", "wi-fi-version");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRxDataCount()
+    ~ReadWiFiNetworkDiagnosticsWiFiVersion()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -27338,67 +48284,85 @@ class ReadThreadNetworkDiagnosticsRxDataCount : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRxDataCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeWiFiVersion(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute RxDataPollCount
- */
-class ReadThreadNetworkDiagnosticsRxDataPollCount : public ModelCommand
+class ReportWiFiNetworkDiagnosticsWiFiVersion : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRxDataPollCount() : ModelCommand("read")
+    ReportWiFiNetworkDiagnosticsWiFiVersion() : ModelCommand("report")
     {
-        AddArgument("attr-name", "rx-data-poll-count");
+        AddArgument("attr-name", "wi-fi-version");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRxDataPollCount()
+    ~ReportWiFiNetworkDiagnosticsWiFiVersion()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRxDataPollCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeWiFiVersion(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeWiFiVersion(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute RxBeaconCount
+ * Attribute ChannelNumber
  */
-class ReadThreadNetworkDiagnosticsRxBeaconCount : public ModelCommand
+class ReadWiFiNetworkDiagnosticsChannelNumber : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRxBeaconCount() : ModelCommand("read")
+    ReadWiFiNetworkDiagnosticsChannelNumber() : ModelCommand("read")
     {
-        AddArgument("attr-name", "rx-beacon-count");
+        AddArgument("attr-name", "channel-number");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRxBeaconCount()
+    ~ReadWiFiNetworkDiagnosticsChannelNumber()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -27406,67 +48370,85 @@ class ReadThreadNetworkDiagnosticsRxBeaconCount : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRxBeaconCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeChannelNumber(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute RxBeaconRequestCount
- */
-class ReadThreadNetworkDiagnosticsRxBeaconRequestCount : public ModelCommand
+class ReportWiFiNetworkDiagnosticsChannelNumber : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRxBeaconRequestCount() : ModelCommand("read")
+    ReportWiFiNetworkDiagnosticsChannelNumber() : ModelCommand("report")
     {
-        AddArgument("attr-name", "rx-beacon-request-count");
+        AddArgument("attr-name", "channel-number");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRxBeaconRequestCount()
+    ~ReportWiFiNetworkDiagnosticsChannelNumber()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRxBeaconRequestCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeChannelNumber(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeChannelNumber(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute RxOtherCount
+ * Attribute Rssi
  */
-class ReadThreadNetworkDiagnosticsRxOtherCount : public ModelCommand
+class ReadWiFiNetworkDiagnosticsRssi : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRxOtherCount() : ModelCommand("read")
+    ReadWiFiNetworkDiagnosticsRssi() : ModelCommand("read")
     {
-        AddArgument("attr-name", "rx-other-count");
+        AddArgument("attr-name", "rssi");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRxOtherCount()
+    ~ReadWiFiNetworkDiagnosticsRssi()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -27474,67 +48456,85 @@ class ReadThreadNetworkDiagnosticsRxOtherCount : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRxOtherCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeRssi(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int8sAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8sAttributeCallback>(OnInt8sAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute RxAddressFilteredCount
- */
-class ReadThreadNetworkDiagnosticsRxAddressFilteredCount : public ModelCommand
+class ReportWiFiNetworkDiagnosticsRssi : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRxAddressFilteredCount() : ModelCommand("read")
+    ReportWiFiNetworkDiagnosticsRssi() : ModelCommand("report")
     {
-        AddArgument("attr-name", "rx-address-filtered-count");
+        AddArgument("attr-name", "rssi");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRxAddressFilteredCount()
+    ~ReportWiFiNetworkDiagnosticsRssi()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRxAddressFilteredCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeRssi(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeRssi(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8sAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8sAttributeCallback>(OnInt8sAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute RxDestAddrFilteredCount
+ * Attribute BeaconLostCount
  */
-class ReadThreadNetworkDiagnosticsRxDestAddrFilteredCount : public ModelCommand
+class ReadWiFiNetworkDiagnosticsBeaconLostCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRxDestAddrFilteredCount() : ModelCommand("read")
+    ReadWiFiNetworkDiagnosticsBeaconLostCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "rx-dest-addr-filtered-count");
+        AddArgument("attr-name", "beacon-lost-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRxDestAddrFilteredCount()
+    ~ReadWiFiNetworkDiagnosticsBeaconLostCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -27542,11 +48542,11 @@ class ReadThreadNetworkDiagnosticsRxDestAddrFilteredCount : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRxDestAddrFilteredCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeBeaconLostCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -27556,53 +48556,71 @@ class ReadThreadNetworkDiagnosticsRxDestAddrFilteredCount : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute RxDuplicatedCount
- */
-class ReadThreadNetworkDiagnosticsRxDuplicatedCount : public ModelCommand
+class ReportWiFiNetworkDiagnosticsBeaconLostCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRxDuplicatedCount() : ModelCommand("read")
+    ReportWiFiNetworkDiagnosticsBeaconLostCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "rx-duplicated-count");
+        AddArgument("attr-name", "beacon-lost-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRxDuplicatedCount()
+    ~ReportWiFiNetworkDiagnosticsBeaconLostCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRxDuplicatedCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeBeaconLostCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeBeaconLostCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute RxErrNoFrameCount
+ * Attribute BeaconRxCount
  */
-class ReadThreadNetworkDiagnosticsRxErrNoFrameCount : public ModelCommand
+class ReadWiFiNetworkDiagnosticsBeaconRxCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRxErrNoFrameCount() : ModelCommand("read")
+    ReadWiFiNetworkDiagnosticsBeaconRxCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "rx-err-no-frame-count");
+        AddArgument("attr-name", "beacon-rx-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRxErrNoFrameCount()
+    ~ReadWiFiNetworkDiagnosticsBeaconRxCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -27610,11 +48628,11 @@ class ReadThreadNetworkDiagnosticsRxErrNoFrameCount : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRxErrNoFrameCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeBeaconRxCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -27624,53 +48642,71 @@ class ReadThreadNetworkDiagnosticsRxErrNoFrameCount : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute RxErrUnknownNeighborCount
- */
-class ReadThreadNetworkDiagnosticsRxErrUnknownNeighborCount : public ModelCommand
+class ReportWiFiNetworkDiagnosticsBeaconRxCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRxErrUnknownNeighborCount() : ModelCommand("read")
+    ReportWiFiNetworkDiagnosticsBeaconRxCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "rx-err-unknown-neighbor-count");
+        AddArgument("attr-name", "beacon-rx-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRxErrUnknownNeighborCount()
+    ~ReportWiFiNetworkDiagnosticsBeaconRxCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRxErrUnknownNeighborCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeBeaconRxCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeBeaconRxCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute RxErrInvalidSrcAddrCount
+ * Attribute PacketMulticastRxCount
  */
-class ReadThreadNetworkDiagnosticsRxErrInvalidSrcAddrCount : public ModelCommand
+class ReadWiFiNetworkDiagnosticsPacketMulticastRxCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRxErrInvalidSrcAddrCount() : ModelCommand("read")
+    ReadWiFiNetworkDiagnosticsPacketMulticastRxCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "rx-err-invalid-src-addr-count");
+        AddArgument("attr-name", "packet-multicast-rx-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRxErrInvalidSrcAddrCount()
+    ~ReadWiFiNetworkDiagnosticsPacketMulticastRxCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -27678,11 +48714,11 @@ class ReadThreadNetworkDiagnosticsRxErrInvalidSrcAddrCount : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRxErrInvalidSrcAddrCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePacketMulticastRxCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -27692,53 +48728,72 @@ class ReadThreadNetworkDiagnosticsRxErrInvalidSrcAddrCount : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute RxErrSecCount
- */
-class ReadThreadNetworkDiagnosticsRxErrSecCount : public ModelCommand
+class ReportWiFiNetworkDiagnosticsPacketMulticastRxCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRxErrSecCount() : ModelCommand("read")
+    ReportWiFiNetworkDiagnosticsPacketMulticastRxCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "rx-err-sec-count");
+        AddArgument("attr-name", "packet-multicast-rx-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRxErrSecCount()
+    ~ReportWiFiNetworkDiagnosticsPacketMulticastRxCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRxErrSecCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributePacketMulticastRxCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePacketMulticastRxCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute RxErrFcsCount
+ * Attribute PacketMulticastTxCount
  */
-class ReadThreadNetworkDiagnosticsRxErrFcsCount : public ModelCommand
+class ReadWiFiNetworkDiagnosticsPacketMulticastTxCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRxErrFcsCount() : ModelCommand("read")
+    ReadWiFiNetworkDiagnosticsPacketMulticastTxCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "rx-err-fcs-count");
+        AddArgument("attr-name", "packet-multicast-tx-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRxErrFcsCount()
+    ~ReadWiFiNetworkDiagnosticsPacketMulticastTxCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -27746,11 +48801,11 @@ class ReadThreadNetworkDiagnosticsRxErrFcsCount : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRxErrFcsCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePacketMulticastTxCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -27760,53 +48815,72 @@ class ReadThreadNetworkDiagnosticsRxErrFcsCount : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute RxErrOtherCount
- */
-class ReadThreadNetworkDiagnosticsRxErrOtherCount : public ModelCommand
+class ReportWiFiNetworkDiagnosticsPacketMulticastTxCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsRxErrOtherCount() : ModelCommand("read")
+    ReportWiFiNetworkDiagnosticsPacketMulticastTxCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "rx-err-other-count");
+        AddArgument("attr-name", "packet-multicast-tx-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsRxErrOtherCount()
+    ~ReportWiFiNetworkDiagnosticsPacketMulticastTxCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRxErrOtherCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributePacketMulticastTxCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePacketMulticastTxCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ActiveTimestamp
+ * Attribute PacketUnicastRxCount
  */
-class ReadThreadNetworkDiagnosticsActiveTimestamp : public ModelCommand
+class ReadWiFiNetworkDiagnosticsPacketUnicastRxCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsActiveTimestamp() : ModelCommand("read")
+    ReadWiFiNetworkDiagnosticsPacketUnicastRxCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "active-timestamp");
+        AddArgument("attr-name", "packet-unicast-rx-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsActiveTimestamp()
+    ~ReadWiFiNetworkDiagnosticsPacketUnicastRxCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -27814,67 +48888,86 @@ class ReadThreadNetworkDiagnosticsActiveTimestamp : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeActiveTimestamp(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePacketUnicastRxCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute PendingTimestamp
- */
-class ReadThreadNetworkDiagnosticsPendingTimestamp : public ModelCommand
+class ReportWiFiNetworkDiagnosticsPacketUnicastRxCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsPendingTimestamp() : ModelCommand("read")
+    ReportWiFiNetworkDiagnosticsPacketUnicastRxCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "pending-timestamp");
+        AddArgument("attr-name", "packet-unicast-rx-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsPendingTimestamp()
+    ~ReportWiFiNetworkDiagnosticsPacketUnicastRxCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePendingTimestamp(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributePacketUnicastRxCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePacketUnicastRxCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                              mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute Delay
+ * Attribute PacketUnicastTxCount
  */
-class ReadThreadNetworkDiagnosticsDelay : public ModelCommand
+class ReadWiFiNetworkDiagnosticsPacketUnicastTxCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsDelay() : ModelCommand("read")
+    ReadWiFiNetworkDiagnosticsPacketUnicastTxCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "delay");
+        AddArgument("attr-name", "packet-unicast-tx-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsDelay()
+    ~ReadWiFiNetworkDiagnosticsPacketUnicastTxCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -27882,11 +48975,11 @@ class ReadThreadNetworkDiagnosticsDelay : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeDelay(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributePacketUnicastTxCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -27896,54 +48989,72 @@ class ReadThreadNetworkDiagnosticsDelay : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute SecurityPolicy
- */
-class ReadThreadNetworkDiagnosticsSecurityPolicy : public ModelCommand
+class ReportWiFiNetworkDiagnosticsPacketUnicastTxCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsSecurityPolicy() : ModelCommand("read")
+    ReportWiFiNetworkDiagnosticsPacketUnicastTxCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "security-policy");
+        AddArgument("attr-name", "packet-unicast-tx-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsSecurityPolicy()
+    ~ReportWiFiNetworkDiagnosticsPacketUnicastTxCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeSecurityPolicy(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributePacketUnicastTxCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributePacketUnicastTxCount(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                              mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<ThreadNetworkDiagnosticsSecurityPolicyListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<ThreadNetworkDiagnosticsSecurityPolicyListAttributeCallback>(
-            OnThreadNetworkDiagnosticsSecurityPolicyListAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ChannelMask
+ * Attribute CurrentMaxRate
  */
-class ReadThreadNetworkDiagnosticsChannelMask : public ModelCommand
+class ReadWiFiNetworkDiagnosticsCurrentMaxRate : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsChannelMask() : ModelCommand("read")
+    ReadWiFiNetworkDiagnosticsCurrentMaxRate() : ModelCommand("read")
     {
-        AddArgument("attr-name", "channel-mask");
+        AddArgument("attr-name", "current-max-rate");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsChannelMask()
+    ~ReadWiFiNetworkDiagnosticsCurrentMaxRate()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -27951,68 +49062,85 @@ class ReadThreadNetworkDiagnosticsChannelMask : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeChannelMask(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeCurrentMaxRate(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-};
-
-/*
- * Attribute OperationalDatasetComponents
- */
-class ReadThreadNetworkDiagnosticsOperationalDatasetComponents : public ModelCommand
+};
+
+class ReportWiFiNetworkDiagnosticsCurrentMaxRate : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsOperationalDatasetComponents() : ModelCommand("read")
+    ReportWiFiNetworkDiagnosticsCurrentMaxRate() : ModelCommand("report")
     {
-        AddArgument("attr-name", "operational-dataset-components");
+        AddArgument("attr-name", "current-max-rate");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsOperationalDatasetComponents()
+    ~ReportWiFiNetworkDiagnosticsCurrentMaxRate()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOperationalDatasetComponents(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentMaxRate(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentMaxRate(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<ThreadNetworkDiagnosticsOperationalDatasetComponentsListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<ThreadNetworkDiagnosticsOperationalDatasetComponentsListAttributeCallback>(
-            OnThreadNetworkDiagnosticsOperationalDatasetComponentsListAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ActiveNetworkFaultsList
+ * Attribute OverrunCount
  */
-class ReadThreadNetworkDiagnosticsActiveNetworkFaultsList : public ModelCommand
+class ReadWiFiNetworkDiagnosticsOverrunCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsActiveNetworkFaultsList() : ModelCommand("read")
+    ReadWiFiNetworkDiagnosticsOverrunCount() : ModelCommand("read")
     {
-        AddArgument("attr-name", "active-network-faults-list");
+        AddArgument("attr-name", "overrun-count");
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsActiveNetworkFaultsList()
+    ~ReadWiFiNetworkDiagnosticsOverrunCount()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -28020,78 +49148,85 @@ class ReadThreadNetworkDiagnosticsActiveNetworkFaultsList : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeActiveNetworkFaultsList(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeOverrunCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<ThreadNetworkDiagnosticsActiveNetworkFaultsListListAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<ThreadNetworkDiagnosticsActiveNetworkFaultsListListAttributeCallback>(
-            OnThreadNetworkDiagnosticsActiveNetworkFaultsListListAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadThreadNetworkDiagnosticsClusterRevision : public ModelCommand
+class ReportWiFiNetworkDiagnosticsOverrunCount : public ModelCommand
 {
 public:
-    ReadThreadNetworkDiagnosticsClusterRevision() : ModelCommand("read")
+    ReportWiFiNetworkDiagnosticsOverrunCount() : ModelCommand("report")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "overrun-count");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadThreadNetworkDiagnosticsClusterRevision()
+    ~ReportWiFiNetworkDiagnosticsOverrunCount()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0035) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::ThreadNetworkDiagnosticsCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOverrunCount(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOverrunCount(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster WakeOnLan                                                   | 0x0503 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * WakeOnLanMacAddress                                               | 0x0000 |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
 /*
- * Attribute WakeOnLanMacAddress
+ * Attribute ClusterRevision
  */
-class ReadWakeOnLanWakeOnLanMacAddress : public ModelCommand
+class ReadWiFiNetworkDiagnosticsClusterRevision : public ModelCommand
 {
 public:
-    ReadWakeOnLanWakeOnLanMacAddress() : ModelCommand("read")
+    ReadWiFiNetworkDiagnosticsClusterRevision() : ModelCommand("read")
     {
-        AddArgument("attr-name", "wake-on-lan-mac-address");
+        AddArgument("attr-name", "cluster-revision");
         ModelCommand::AddArguments();
     }
 
-    ~ReadWakeOnLanWakeOnLanMacAddress()
+    ~ReadWiFiNetworkDiagnosticsClusterRevision()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -28099,279 +49234,271 @@ class ReadWakeOnLanWakeOnLanMacAddress : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0503) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::WakeOnLanCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeWakeOnLanMacAddress(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<CharStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ClusterRevision
- */
-class ReadWakeOnLanClusterRevision : public ModelCommand
+class ReportWiFiNetworkDiagnosticsClusterRevision : public ModelCommand
 {
 public:
-    ReadWakeOnLanClusterRevision() : ModelCommand("read")
+    ReportWiFiNetworkDiagnosticsClusterRevision() : ModelCommand("report")
     {
         AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadWakeOnLanClusterRevision()
+    ~ReportWiFiNetworkDiagnosticsClusterRevision()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0503) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::WakeOnLanCluster cluster;
+        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*----------------------------------------------------------------------------*\
-| Cluster WiFiNetworkDiagnostics                                      | 0x0036 |
+| Cluster WindowCovering                                              | 0x0102 |
 |------------------------------------------------------------------------------|
 | Commands:                                                           |        |
-| * ResetCounts                                                       |   0x00 |
+| * DownOrClose                                                       |   0x01 |
+| * GoToLiftPercentage                                                |   0x05 |
+| * GoToLiftValue                                                     |   0x04 |
+| * GoToTiltPercentage                                                |   0x08 |
+| * GoToTiltValue                                                     |   0x07 |
+| * StopMotion                                                        |   0x02 |
+| * UpOrOpen                                                          |   0x00 |
 |------------------------------------------------------------------------------|
 | Attributes:                                                         |        |
-| * Bssid                                                             | 0x0000 |
-| * SecurityType                                                      | 0x0001 |
-| * WiFiVersion                                                       | 0x0002 |
-| * ChannelNumber                                                     | 0x0003 |
-| * Rssi                                                              | 0x0004 |
-| * BeaconLostCount                                                   | 0x0005 |
-| * BeaconRxCount                                                     | 0x0006 |
-| * PacketMulticastRxCount                                            | 0x0007 |
-| * PacketMulticastTxCount                                            | 0x0008 |
-| * PacketUnicastRxCount                                              | 0x0009 |
-| * PacketUnicastTxCount                                              | 0x000A |
-| * CurrentMaxRate                                                    | 0x000B |
-| * OverrunCount                                                      | 0x000C |
+| * Type                                                              | 0x0000 |
+| * CurrentPositionLift                                               | 0x0003 |
+| * CurrentPositionTilt                                               | 0x0004 |
+| * ConfigStatus                                                      | 0x0007 |
+| * CurrentPositionLiftPercentage                                     | 0x0008 |
+| * CurrentPositionTiltPercentage                                     | 0x0009 |
+| * OperationalStatus                                                 | 0x000A |
+| * TargetPositionLiftPercent100ths                                   | 0x000B |
+| * TargetPositionTiltPercent100ths                                   | 0x000C |
+| * EndProductType                                                    | 0x000D |
+| * CurrentPositionLiftPercent100ths                                  | 0x000E |
+| * CurrentPositionTiltPercent100ths                                  | 0x000F |
+| * InstalledOpenLimitLift                                            | 0x0010 |
+| * InstalledClosedLimitLift                                          | 0x0011 |
+| * InstalledOpenLimitTilt                                            | 0x0012 |
+| * InstalledClosedLimitTilt                                          | 0x0013 |
+| * Mode                                                              | 0x0017 |
+| * SafetyStatus                                                      | 0x001A |
+| * FeatureMap                                                        | 0xFFFC |
 | * ClusterRevision                                                   | 0xFFFD |
 \*----------------------------------------------------------------------------*/
 
 /*
- * Command ResetCounts
+ * Command DownOrClose
  */
-class WiFiNetworkDiagnosticsResetCounts : public ModelCommand
+class WindowCoveringDownOrClose : public ModelCommand
 {
 public:
-    WiFiNetworkDiagnosticsResetCounts() : ModelCommand("reset-counts") { ModelCommand::AddArguments(); }
+    WindowCoveringDownOrClose() : ModelCommand("down-or-close") { ModelCommand::AddArguments(); }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000036) command (0x00000000) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000102) command (0x00000001) on endpoint %" PRIu8, endpointId);
 
         return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::app::Clusters::WiFiNetworkDiagnostics::Commands::ResetCounts::Type mRequest;
+    chip::app::Clusters::WindowCovering::Commands::DownOrClose::Type mRequest;
 };
 
 /*
- * Attribute Bssid
+ * Command GoToLiftPercentage
  */
-class ReadWiFiNetworkDiagnosticsBssid : public ModelCommand
+class WindowCoveringGoToLiftPercentage : public ModelCommand
 {
 public:
-    ReadWiFiNetworkDiagnosticsBssid() : ModelCommand("read")
+    WindowCoveringGoToLiftPercentage() : ModelCommand("go-to-lift-percentage")
     {
-        AddArgument("attr-name", "bssid");
+        AddArgument("LiftPercentageValue", 0, UINT8_MAX, &mRequest.liftPercentageValue);
+        AddArgument("LiftPercent100thsValue", 0, UINT16_MAX, &mRequest.liftPercent100thsValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadWiFiNetworkDiagnosticsBssid()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000102) command (0x00000005) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeBssid(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<OctetStringAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::WindowCovering::Commands::GoToLiftPercentage::Type mRequest;
 };
 
 /*
- * Attribute SecurityType
+ * Command GoToLiftValue
  */
-class ReadWiFiNetworkDiagnosticsSecurityType : public ModelCommand
+class WindowCoveringGoToLiftValue : public ModelCommand
 {
 public:
-    ReadWiFiNetworkDiagnosticsSecurityType() : ModelCommand("read")
+    WindowCoveringGoToLiftValue() : ModelCommand("go-to-lift-value")
     {
-        AddArgument("attr-name", "security-type");
+        AddArgument("LiftValue", 0, UINT16_MAX, &mRequest.liftValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadWiFiNetworkDiagnosticsSecurityType()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000102) command (0x00000004) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeSecurityType(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::WindowCovering::Commands::GoToLiftValue::Type mRequest;
 };
 
 /*
- * Attribute WiFiVersion
+ * Command GoToTiltPercentage
  */
-class ReadWiFiNetworkDiagnosticsWiFiVersion : public ModelCommand
+class WindowCoveringGoToTiltPercentage : public ModelCommand
 {
 public:
-    ReadWiFiNetworkDiagnosticsWiFiVersion() : ModelCommand("read")
+    WindowCoveringGoToTiltPercentage() : ModelCommand("go-to-tilt-percentage")
     {
-        AddArgument("attr-name", "wi-fi-version");
+        AddArgument("TiltPercentageValue", 0, UINT8_MAX, &mRequest.tiltPercentageValue);
+        AddArgument("TiltPercent100thsValue", 0, UINT16_MAX, &mRequest.tiltPercent100thsValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadWiFiNetworkDiagnosticsWiFiVersion()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000102) command (0x00000008) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeWiFiVersion(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::WindowCovering::Commands::GoToTiltPercentage::Type mRequest;
 };
 
 /*
- * Attribute ChannelNumber
+ * Command GoToTiltValue
  */
-class ReadWiFiNetworkDiagnosticsChannelNumber : public ModelCommand
+class WindowCoveringGoToTiltValue : public ModelCommand
 {
 public:
-    ReadWiFiNetworkDiagnosticsChannelNumber() : ModelCommand("read")
+    WindowCoveringGoToTiltValue() : ModelCommand("go-to-tilt-value")
     {
-        AddArgument("attr-name", "channel-number");
+        AddArgument("TiltValue", 0, UINT16_MAX, &mRequest.tiltValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadWiFiNetworkDiagnosticsChannelNumber()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000102) command (0x00000007) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeChannelNumber(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::WindowCovering::Commands::GoToTiltValue::Type mRequest;
 };
 
 /*
- * Attribute Rssi
+ * Command StopMotion
  */
-class ReadWiFiNetworkDiagnosticsRssi : public ModelCommand
+class WindowCoveringStopMotion : public ModelCommand
 {
 public:
-    ReadWiFiNetworkDiagnosticsRssi() : ModelCommand("read")
-    {
-        AddArgument("attr-name", "rssi");
-        ModelCommand::AddArguments();
-    }
+    WindowCoveringStopMotion() : ModelCommand("stop-motion") { ModelCommand::AddArguments(); }
 
-    ~ReadWiFiNetworkDiagnosticsRssi()
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        delete onSuccessCallback;
-        delete onFailureCallback;
+        ChipLogProgress(chipTool, "Sending cluster (0x00000102) command (0x00000002) on endpoint %" PRIu8, endpointId);
+
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
+private:
+    chip::app::Clusters::WindowCovering::Commands::StopMotion::Type mRequest;
+};
+
+/*
+ * Command UpOrOpen
+ */
+class WindowCoveringUpOrOpen : public ModelCommand
+{
+public:
+    WindowCoveringUpOrOpen() : ModelCommand("up-or-open") { ModelCommand::AddArguments(); }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x00000102) command (0x00000000) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeRssi(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
     }
 
 private:
-    chip::Callback::Callback<Int8sAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8sAttributeCallback>(OnInt8sAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::app::Clusters::WindowCovering::Commands::UpOrOpen::Type mRequest;
 };
 
 /*
- * Attribute BeaconLostCount
+ * Attribute Type
  */
-class ReadWiFiNetworkDiagnosticsBeaconLostCount : public ModelCommand
+class ReadWindowCoveringType : public ModelCommand
 {
 public:
-    ReadWiFiNetworkDiagnosticsBeaconLostCount() : ModelCommand("read")
+    ReadWindowCoveringType() : ModelCommand("read")
     {
-        AddArgument("attr-name", "beacon-lost-count");
+        AddArgument("attr-name", "type");
         ModelCommand::AddArguments();
     }
 
-    ~ReadWiFiNetworkDiagnosticsBeaconLostCount()
+    ~ReadWindowCoveringType()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -28379,67 +49506,85 @@ class ReadWiFiNetworkDiagnosticsBeaconLostCount : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+        chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeBeaconLostCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeType(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute BeaconRxCount
- */
-class ReadWiFiNetworkDiagnosticsBeaconRxCount : public ModelCommand
+class ReportWindowCoveringType : public ModelCommand
 {
 public:
-    ReadWiFiNetworkDiagnosticsBeaconRxCount() : ModelCommand("read")
+    ReportWindowCoveringType() : ModelCommand("report")
     {
-        AddArgument("attr-name", "beacon-rx-count");
+        AddArgument("attr-name", "type");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadWiFiNetworkDiagnosticsBeaconRxCount()
+    ~ReportWindowCoveringType()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+        chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeBeaconRxCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeType(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeType(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute PacketMulticastRxCount
+ * Attribute CurrentPositionLift
  */
-class ReadWiFiNetworkDiagnosticsPacketMulticastRxCount : public ModelCommand
+class ReadWindowCoveringCurrentPositionLift : public ModelCommand
 {
 public:
-    ReadWiFiNetworkDiagnosticsPacketMulticastRxCount() : ModelCommand("read")
+    ReadWindowCoveringCurrentPositionLift() : ModelCommand("read")
     {
-        AddArgument("attr-name", "packet-multicast-rx-count");
+        AddArgument("attr-name", "current-position-lift");
         ModelCommand::AddArguments();
     }
 
-    ~ReadWiFiNetworkDiagnosticsPacketMulticastRxCount()
+    ~ReadWindowCoveringCurrentPositionLift()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -28447,67 +49592,86 @@ class ReadWiFiNetworkDiagnosticsPacketMulticastRxCount : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+        chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePacketMulticastRxCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeCurrentPositionLift(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute PacketMulticastTxCount
- */
-class ReadWiFiNetworkDiagnosticsPacketMulticastTxCount : public ModelCommand
+class ReportWindowCoveringCurrentPositionLift : public ModelCommand
 {
 public:
-    ReadWiFiNetworkDiagnosticsPacketMulticastTxCount() : ModelCommand("read")
+    ReportWindowCoveringCurrentPositionLift() : ModelCommand("report")
     {
-        AddArgument("attr-name", "packet-multicast-tx-count");
+        AddArgument("attr-name", "current-position-lift");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadWiFiNetworkDiagnosticsPacketMulticastTxCount()
+    ~ReportWindowCoveringCurrentPositionLift()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+        chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePacketMulticastTxCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentPositionLift(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentPositionLift(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                             mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute PacketUnicastRxCount
+ * Attribute CurrentPositionTilt
  */
-class ReadWiFiNetworkDiagnosticsPacketUnicastRxCount : public ModelCommand
+class ReadWindowCoveringCurrentPositionTilt : public ModelCommand
 {
 public:
-    ReadWiFiNetworkDiagnosticsPacketUnicastRxCount() : ModelCommand("read")
+    ReadWindowCoveringCurrentPositionTilt() : ModelCommand("read")
     {
-        AddArgument("attr-name", "packet-unicast-rx-count");
+        AddArgument("attr-name", "current-position-tilt");
         ModelCommand::AddArguments();
     }
 
-    ~ReadWiFiNetworkDiagnosticsPacketUnicastRxCount()
+    ~ReadWindowCoveringCurrentPositionTilt()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -28515,67 +49679,86 @@ class ReadWiFiNetworkDiagnosticsPacketUnicastRxCount : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+        chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePacketUnicastRxCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeCurrentPositionTilt(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute PacketUnicastTxCount
- */
-class ReadWiFiNetworkDiagnosticsPacketUnicastTxCount : public ModelCommand
+class ReportWindowCoveringCurrentPositionTilt : public ModelCommand
 {
 public:
-    ReadWiFiNetworkDiagnosticsPacketUnicastTxCount() : ModelCommand("read")
+    ReportWindowCoveringCurrentPositionTilt() : ModelCommand("report")
     {
-        AddArgument("attr-name", "packet-unicast-tx-count");
+        AddArgument("attr-name", "current-position-tilt");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadWiFiNetworkDiagnosticsPacketUnicastTxCount()
+    ~ReportWindowCoveringCurrentPositionTilt()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+        chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributePacketUnicastTxCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentPositionTilt(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentPositionTilt(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                             mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int32uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute CurrentMaxRate
+ * Attribute ConfigStatus
  */
-class ReadWiFiNetworkDiagnosticsCurrentMaxRate : public ModelCommand
+class ReadWindowCoveringConfigStatus : public ModelCommand
 {
 public:
-    ReadWiFiNetworkDiagnosticsCurrentMaxRate() : ModelCommand("read")
+    ReadWindowCoveringConfigStatus() : ModelCommand("read")
     {
-        AddArgument("attr-name", "current-max-rate");
+        AddArgument("attr-name", "config-status");
         ModelCommand::AddArguments();
     }
 
-    ~ReadWiFiNetworkDiagnosticsCurrentMaxRate()
+    ~ReadWindowCoveringConfigStatus()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -28583,67 +49766,85 @@ class ReadWiFiNetworkDiagnosticsCurrentMaxRate : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+        chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentMaxRate(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeConfigStatus(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute OverrunCount
- */
-class ReadWiFiNetworkDiagnosticsOverrunCount : public ModelCommand
+class ReportWindowCoveringConfigStatus : public ModelCommand
 {
 public:
-    ReadWiFiNetworkDiagnosticsOverrunCount() : ModelCommand("read")
+    ReportWindowCoveringConfigStatus() : ModelCommand("report")
     {
-        AddArgument("attr-name", "overrun-count");
+        AddArgument("attr-name", "config-status");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadWiFiNetworkDiagnosticsOverrunCount()
+    ~ReportWindowCoveringConfigStatus()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+        chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOverrunCount(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeConfigStatus(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeConfigStatus(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int64uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute ClusterRevision
+ * Attribute CurrentPositionLiftPercentage
  */
-class ReadWiFiNetworkDiagnosticsClusterRevision : public ModelCommand
+class ReadWindowCoveringCurrentPositionLiftPercentage : public ModelCommand
 {
 public:
-    ReadWiFiNetworkDiagnosticsClusterRevision() : ModelCommand("read")
+    ReadWindowCoveringCurrentPositionLiftPercentage() : ModelCommand("read")
     {
-        AddArgument("attr-name", "cluster-revision");
+        AddArgument("attr-name", "current-position-lift-percentage");
         ModelCommand::AddArguments();
     }
 
-    ~ReadWiFiNetworkDiagnosticsClusterRevision()
+    ~ReadWindowCoveringCurrentPositionLiftPercentage()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -28651,219 +49852,173 @@ class ReadWiFiNetworkDiagnosticsClusterRevision : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0036) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        chip::Controller::WiFiNetworkDiagnosticsCluster cluster;
+        chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeClusterRevision(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeCurrentPositionLiftPercentage(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*----------------------------------------------------------------------------*\
-| Cluster WindowCovering                                              | 0x0102 |
-|------------------------------------------------------------------------------|
-| Commands:                                                           |        |
-| * DownOrClose                                                       |   0x01 |
-| * GoToLiftPercentage                                                |   0x05 |
-| * GoToLiftValue                                                     |   0x04 |
-| * GoToTiltPercentage                                                |   0x08 |
-| * GoToTiltValue                                                     |   0x07 |
-| * StopMotion                                                        |   0x02 |
-| * UpOrOpen                                                          |   0x00 |
-|------------------------------------------------------------------------------|
-| Attributes:                                                         |        |
-| * Type                                                              | 0x0000 |
-| * CurrentPositionLift                                               | 0x0003 |
-| * CurrentPositionTilt                                               | 0x0004 |
-| * ConfigStatus                                                      | 0x0007 |
-| * CurrentPositionLiftPercentage                                     | 0x0008 |
-| * CurrentPositionTiltPercentage                                     | 0x0009 |
-| * OperationalStatus                                                 | 0x000A |
-| * TargetPositionLiftPercent100ths                                   | 0x000B |
-| * TargetPositionTiltPercent100ths                                   | 0x000C |
-| * EndProductType                                                    | 0x000D |
-| * CurrentPositionLiftPercent100ths                                  | 0x000E |
-| * CurrentPositionTiltPercent100ths                                  | 0x000F |
-| * InstalledOpenLimitLift                                            | 0x0010 |
-| * InstalledClosedLimitLift                                          | 0x0011 |
-| * InstalledOpenLimitTilt                                            | 0x0012 |
-| * InstalledClosedLimitTilt                                          | 0x0013 |
-| * Mode                                                              | 0x0017 |
-| * SafetyStatus                                                      | 0x001A |
-| * FeatureMap                                                        | 0xFFFC |
-| * ClusterRevision                                                   | 0xFFFD |
-\*----------------------------------------------------------------------------*/
-
-/*
- * Command DownOrClose
- */
-class WindowCoveringDownOrClose : public ModelCommand
+class ReportWindowCoveringCurrentPositionLiftPercentage : public ModelCommand
 {
 public:
-    WindowCoveringDownOrClose() : ModelCommand("down-or-close") { ModelCommand::AddArguments(); }
-
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    ReportWindowCoveringCurrentPositionLiftPercentage() : ModelCommand("report")
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000102) command (0x00000001) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        AddArgument("attr-name", "current-position-lift-percentage");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
     }
 
-private:
-    chip::app::Clusters::WindowCovering::Commands::DownOrClose::Type mRequest;
-};
-
-/*
- * Command GoToLiftPercentage
- */
-class WindowCoveringGoToLiftPercentage : public ModelCommand
-{
-public:
-    WindowCoveringGoToLiftPercentage() : ModelCommand("go-to-lift-percentage")
+    ~ReportWindowCoveringCurrentPositionLiftPercentage()
     {
-        AddArgument("LiftPercentageValue", 0, UINT8_MAX, &mRequest.liftPercentageValue);
-        AddArgument("LiftPercent100thsValue", 0, UINT16_MAX, &mRequest.liftPercent100thsValue);
-        ModelCommand::AddArguments();
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000102) command (0x00000005) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
-    }
+        chip::Controller::WindowCoveringCluster cluster;
+        cluster.Associate(device, endpointId);
 
-private:
-    chip::app::Clusters::WindowCovering::Commands::GoToLiftPercentage::Type mRequest;
-};
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentPositionLiftPercentage(onReportCallback->Cancel()));
 
-/*
- * Command GoToLiftValue
- */
-class WindowCoveringGoToLiftValue : public ModelCommand
-{
-public:
-    WindowCoveringGoToLiftValue() : ModelCommand("go-to-lift-value")
-    {
-        AddArgument("LiftValue", 0, UINT16_MAX, &mRequest.liftValue);
-        ModelCommand::AddArguments();
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentPositionLiftPercentage(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                       mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000102) command (0x00000004) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::WindowCovering::Commands::GoToLiftValue::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Command GoToTiltPercentage
+ * Attribute CurrentPositionTiltPercentage
  */
-class WindowCoveringGoToTiltPercentage : public ModelCommand
+class ReadWindowCoveringCurrentPositionTiltPercentage : public ModelCommand
 {
 public:
-    WindowCoveringGoToTiltPercentage() : ModelCommand("go-to-tilt-percentage")
+    ReadWindowCoveringCurrentPositionTiltPercentage() : ModelCommand("read")
     {
-        AddArgument("TiltPercentageValue", 0, UINT8_MAX, &mRequest.tiltPercentageValue);
-        AddArgument("TiltPercent100thsValue", 0, UINT16_MAX, &mRequest.tiltPercent100thsValue);
+        AddArgument("attr-name", "current-position-tilt-percentage");
         ModelCommand::AddArguments();
     }
 
+    ~ReadWindowCoveringCurrentPositionTiltPercentage()
+    {
+        delete onSuccessCallback;
+        delete onFailureCallback;
+    }
+
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000102) command (0x00000008) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x00) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        chip::Controller::WindowCoveringCluster cluster;
+        cluster.Associate(device, endpointId);
+        return cluster.ReadAttributeCurrentPositionTiltPercentage(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::app::Clusters::WindowCovering::Commands::GoToTiltPercentage::Type mRequest;
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Command GoToTiltValue
- */
-class WindowCoveringGoToTiltValue : public ModelCommand
+class ReportWindowCoveringCurrentPositionTiltPercentage : public ModelCommand
 {
 public:
-    WindowCoveringGoToTiltValue() : ModelCommand("go-to-tilt-value")
+    ReportWindowCoveringCurrentPositionTiltPercentage() : ModelCommand("report")
     {
-        AddArgument("TiltValue", 0, UINT16_MAX, &mRequest.tiltValue);
+        AddArgument("attr-name", "current-position-tilt-percentage");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    ~ReportWindowCoveringCurrentPositionTiltPercentage()
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000102) command (0x00000007) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
     }
 
-private:
-    chip::app::Clusters::WindowCovering::Commands::GoToTiltValue::Type mRequest;
-};
-
-/*
- * Command StopMotion
- */
-class WindowCoveringStopMotion : public ModelCommand
-{
-public:
-    WindowCoveringStopMotion() : ModelCommand("stop-motion") { ModelCommand::AddArguments(); }
-
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000102) command (0x00000002) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x06) on endpoint %" PRIu8, endpointId);
 
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
-    }
+        chip::Controller::WindowCoveringCluster cluster;
+        cluster.Associate(device, endpointId);
 
-private:
-    chip::app::Clusters::WindowCovering::Commands::StopMotion::Type mRequest;
-};
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentPositionTiltPercentage(onReportCallback->Cancel()));
 
-/*
- * Command UpOrOpen
- */
-class WindowCoveringUpOrOpen : public ModelCommand
-{
-public:
-    WindowCoveringUpOrOpen() : ModelCommand("up-or-open") { ModelCommand::AddArguments(); }
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeCurrentPositionTiltPercentage(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                       mMaxInterval);
+    }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x00000102) command (0x00000000) on endpoint %" PRIu8, endpointId);
-
-        return chip::Controller::InvokeCommand(device, this, OnDefaultSuccess, OnDefaultFailure, endpointId, mRequest);
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::app::Clusters::WindowCovering::Commands::UpOrOpen::Type mRequest;
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute Type
+ * Attribute OperationalStatus
  */
-class ReadWindowCoveringType : public ModelCommand
+class ReadWindowCoveringOperationalStatus : public ModelCommand
 {
 public:
-    ReadWindowCoveringType() : ModelCommand("read")
+    ReadWindowCoveringOperationalStatus() : ModelCommand("read")
     {
-        AddArgument("attr-name", "type");
+        AddArgument("attr-name", "operational-status");
         ModelCommand::AddArguments();
     }
 
-    ~ReadWindowCoveringType()
+    ~ReadWindowCoveringOperationalStatus()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -28875,7 +50030,7 @@ class ReadWindowCoveringType : public ModelCommand
 
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeType(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeOperationalStatus(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -28885,53 +50040,72 @@ class ReadWindowCoveringType : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute CurrentPositionLift
- */
-class ReadWindowCoveringCurrentPositionLift : public ModelCommand
+class ReportWindowCoveringOperationalStatus : public ModelCommand
 {
 public:
-    ReadWindowCoveringCurrentPositionLift() : ModelCommand("read")
+    ReportWindowCoveringOperationalStatus() : ModelCommand("report")
     {
-        AddArgument("attr-name", "current-position-lift");
+        AddArgument("attr-name", "operational-status");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadWindowCoveringCurrentPositionLift()
+    ~ReportWindowCoveringOperationalStatus()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentPositionLift(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeOperationalStatus(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeOperationalStatus(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                           mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute CurrentPositionTilt
+ * Attribute TargetPositionLiftPercent100ths
  */
-class ReadWindowCoveringCurrentPositionTilt : public ModelCommand
+class ReadWindowCoveringTargetPositionLiftPercent100ths : public ModelCommand
 {
 public:
-    ReadWindowCoveringCurrentPositionTilt() : ModelCommand("read")
+    ReadWindowCoveringTargetPositionLiftPercent100ths() : ModelCommand("read")
     {
-        AddArgument("attr-name", "current-position-tilt");
+        AddArgument("attr-name", "target-position-lift-percent100ths");
         ModelCommand::AddArguments();
     }
 
-    ~ReadWindowCoveringCurrentPositionTilt()
+    ~ReadWindowCoveringTargetPositionLiftPercent100ths()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -28943,7 +50117,7 @@ class ReadWindowCoveringCurrentPositionTilt : public ModelCommand
 
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentPositionTilt(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTargetPositionLiftPercent100ths(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -28953,53 +50127,72 @@ class ReadWindowCoveringCurrentPositionTilt : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute ConfigStatus
- */
-class ReadWindowCoveringConfigStatus : public ModelCommand
+class ReportWindowCoveringTargetPositionLiftPercent100ths : public ModelCommand
 {
 public:
-    ReadWindowCoveringConfigStatus() : ModelCommand("read")
+    ReportWindowCoveringTargetPositionLiftPercent100ths() : ModelCommand("report")
     {
-        AddArgument("attr-name", "config-status");
+        AddArgument("attr-name", "target-position-lift-percent100ths");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadWindowCoveringConfigStatus()
+    ~ReportWindowCoveringTargetPositionLiftPercent100ths()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeConfigStatus(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+
+        ReturnErrorOnFailure(cluster.ReportAttributeTargetPositionLiftPercent100ths(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeTargetPositionLiftPercent100ths(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                         mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute CurrentPositionLiftPercentage
+ * Attribute TargetPositionTiltPercent100ths
  */
-class ReadWindowCoveringCurrentPositionLiftPercentage : public ModelCommand
+class ReadWindowCoveringTargetPositionTiltPercent100ths : public ModelCommand
 {
 public:
-    ReadWindowCoveringCurrentPositionLiftPercentage() : ModelCommand("read")
+    ReadWindowCoveringTargetPositionTiltPercent100ths() : ModelCommand("read")
     {
-        AddArgument("attr-name", "current-position-lift-percentage");
+        AddArgument("attr-name", "target-position-tilt-percent100ths");
         ModelCommand::AddArguments();
     }
 
-    ~ReadWindowCoveringCurrentPositionLiftPercentage()
+    ~ReadWindowCoveringTargetPositionTiltPercent100ths()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -29011,29 +50204,29 @@ class ReadWindowCoveringCurrentPositionLiftPercentage : public ModelCommand
 
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentPositionLiftPercentage(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeTargetPositionTiltPercent100ths(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class ReportWindowCoveringCurrentPositionLiftPercentage : public ModelCommand
+class ReportWindowCoveringTargetPositionTiltPercent100ths : public ModelCommand
 {
 public:
-    ReportWindowCoveringCurrentPositionLiftPercentage() : ModelCommand("report")
+    ReportWindowCoveringTargetPositionTiltPercent100ths() : ModelCommand("report")
     {
-        AddArgument("attr-name", "current-position-lift-percentage");
+        AddArgument("attr-name", "target-position-tilt-percent100ths");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportWindowCoveringCurrentPositionLiftPercentage()
+    ~ReportWindowCoveringTargetPositionTiltPercent100ths()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -29048,11 +50241,11 @@ class ReportWindowCoveringCurrentPositionLiftPercentage : public ModelCommand
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeCurrentPositionLiftPercentage(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeTargetPositionTiltPercent100ths(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeCurrentPositionLiftPercentage(successCallback, onFailureCallback->Cancel(), mMinInterval,
-                                                                       mMaxInterval);
+        return cluster.SubscribeAttributeTargetPositionTiltPercent100ths(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                         mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -29067,26 +50260,26 @@ class ReportWindowCoveringCurrentPositionLiftPercentage : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
     uint16_t mMinInterval;
     uint16_t mMaxInterval;
     bool mWait;
 };
 
 /*
- * Attribute CurrentPositionTiltPercentage
+ * Attribute EndProductType
  */
-class ReadWindowCoveringCurrentPositionTiltPercentage : public ModelCommand
+class ReadWindowCoveringEndProductType : public ModelCommand
 {
 public:
-    ReadWindowCoveringCurrentPositionTiltPercentage() : ModelCommand("read")
+    ReadWindowCoveringEndProductType() : ModelCommand("read")
     {
-        AddArgument("attr-name", "current-position-tilt-percentage");
+        AddArgument("attr-name", "end-product-type");
         ModelCommand::AddArguments();
     }
 
-    ~ReadWindowCoveringCurrentPositionTiltPercentage()
+    ~ReadWindowCoveringEndProductType()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -29098,7 +50291,7 @@ class ReadWindowCoveringCurrentPositionTiltPercentage : public ModelCommand
 
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentPositionTiltPercentage(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeEndProductType(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -29108,19 +50301,19 @@ class ReadWindowCoveringCurrentPositionTiltPercentage : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class ReportWindowCoveringCurrentPositionTiltPercentage : public ModelCommand
+class ReportWindowCoveringEndProductType : public ModelCommand
 {
 public:
-    ReportWindowCoveringCurrentPositionTiltPercentage() : ModelCommand("report")
+    ReportWindowCoveringEndProductType() : ModelCommand("report")
     {
-        AddArgument("attr-name", "current-position-tilt-percentage");
+        AddArgument("attr-name", "end-product-type");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportWindowCoveringCurrentPositionTiltPercentage()
+    ~ReportWindowCoveringEndProductType()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -29135,11 +50328,10 @@ class ReportWindowCoveringCurrentPositionTiltPercentage : public ModelCommand
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeCurrentPositionTiltPercentage(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeEndProductType(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeCurrentPositionTiltPercentage(successCallback, onFailureCallback->Cancel(), mMinInterval,
-                                                                       mMaxInterval);
+        return cluster.SubscribeAttributeEndProductType(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -29162,18 +50354,18 @@ class ReportWindowCoveringCurrentPositionTiltPercentage : public ModelCommand
 };
 
 /*
- * Attribute OperationalStatus
+ * Attribute CurrentPositionLiftPercent100ths
  */
-class ReadWindowCoveringOperationalStatus : public ModelCommand
+class ReadWindowCoveringCurrentPositionLiftPercent100ths : public ModelCommand
 {
 public:
-    ReadWindowCoveringOperationalStatus() : ModelCommand("read")
+    ReadWindowCoveringCurrentPositionLiftPercent100ths() : ModelCommand("read")
     {
-        AddArgument("attr-name", "operational-status");
+        AddArgument("attr-name", "current-position-lift-percent100ths");
         ModelCommand::AddArguments();
     }
 
-    ~ReadWindowCoveringOperationalStatus()
+    ~ReadWindowCoveringCurrentPositionLiftPercent100ths()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -29185,29 +50377,29 @@ class ReadWindowCoveringOperationalStatus : public ModelCommand
 
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeOperationalStatus(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeCurrentPositionLiftPercent100ths(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class ReportWindowCoveringOperationalStatus : public ModelCommand
+class ReportWindowCoveringCurrentPositionLiftPercent100ths : public ModelCommand
 {
 public:
-    ReportWindowCoveringOperationalStatus() : ModelCommand("report")
+    ReportWindowCoveringCurrentPositionLiftPercent100ths() : ModelCommand("report")
     {
-        AddArgument("attr-name", "operational-status");
+        AddArgument("attr-name", "current-position-lift-percent100ths");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportWindowCoveringOperationalStatus()
+    ~ReportWindowCoveringCurrentPositionLiftPercent100ths()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -29222,11 +50414,11 @@ class ReportWindowCoveringOperationalStatus : public ModelCommand
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeOperationalStatus(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentPositionLiftPercent100ths(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeOperationalStatus(successCallback, onFailureCallback->Cancel(), mMinInterval,
-                                                           mMaxInterval);
+        return cluster.SubscribeAttributeCurrentPositionLiftPercent100ths(successCallback, onFailureCallback->Cancel(),
+                                                                          mMinInterval, mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -29241,26 +50433,26 @@ class ReportWindowCoveringOperationalStatus : public ModelCommand
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
     uint16_t mMinInterval;
     uint16_t mMaxInterval;
     bool mWait;
 };
 
 /*
- * Attribute TargetPositionLiftPercent100ths
+ * Attribute CurrentPositionTiltPercent100ths
  */
-class ReadWindowCoveringTargetPositionLiftPercent100ths : public ModelCommand
+class ReadWindowCoveringCurrentPositionTiltPercent100ths : public ModelCommand
 {
 public:
-    ReadWindowCoveringTargetPositionLiftPercent100ths() : ModelCommand("read")
+    ReadWindowCoveringCurrentPositionTiltPercent100ths() : ModelCommand("read")
     {
-        AddArgument("attr-name", "target-position-lift-percent100ths");
+        AddArgument("attr-name", "current-position-tilt-percent100ths");
         ModelCommand::AddArguments();
     }
 
-    ~ReadWindowCoveringTargetPositionLiftPercent100ths()
+    ~ReadWindowCoveringCurrentPositionTiltPercent100ths()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -29272,7 +50464,7 @@ class ReadWindowCoveringTargetPositionLiftPercent100ths : public ModelCommand
 
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTargetPositionLiftPercent100ths(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeCurrentPositionTiltPercent100ths(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -29282,19 +50474,19 @@ class ReadWindowCoveringTargetPositionLiftPercent100ths : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class ReportWindowCoveringTargetPositionLiftPercent100ths : public ModelCommand
+class ReportWindowCoveringCurrentPositionTiltPercent100ths : public ModelCommand
 {
 public:
-    ReportWindowCoveringTargetPositionLiftPercent100ths() : ModelCommand("report")
+    ReportWindowCoveringCurrentPositionTiltPercent100ths() : ModelCommand("report")
     {
-        AddArgument("attr-name", "target-position-lift-percent100ths");
+        AddArgument("attr-name", "current-position-tilt-percent100ths");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportWindowCoveringTargetPositionLiftPercent100ths()
+    ~ReportWindowCoveringCurrentPositionTiltPercent100ths()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -29309,11 +50501,11 @@ class ReportWindowCoveringTargetPositionLiftPercent100ths : public ModelCommand
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeTargetPositionLiftPercent100ths(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeCurrentPositionTiltPercent100ths(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeTargetPositionLiftPercent100ths(successCallback, onFailureCallback->Cancel(), mMinInterval,
-                                                                         mMaxInterval);
+        return cluster.SubscribeAttributeCurrentPositionTiltPercent100ths(successCallback, onFailureCallback->Cancel(),
+                                                                          mMinInterval, mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -29336,18 +50528,18 @@ class ReportWindowCoveringTargetPositionLiftPercent100ths : public ModelCommand
 };
 
 /*
- * Attribute TargetPositionTiltPercent100ths
+ * Attribute InstalledOpenLimitLift
  */
-class ReadWindowCoveringTargetPositionTiltPercent100ths : public ModelCommand
+class ReadWindowCoveringInstalledOpenLimitLift : public ModelCommand
 {
 public:
-    ReadWindowCoveringTargetPositionTiltPercent100ths() : ModelCommand("read")
+    ReadWindowCoveringInstalledOpenLimitLift() : ModelCommand("read")
     {
-        AddArgument("attr-name", "target-position-tilt-percent100ths");
+        AddArgument("attr-name", "installed-open-limit-lift");
         ModelCommand::AddArguments();
     }
 
-    ~ReadWindowCoveringTargetPositionTiltPercent100ths()
+    ~ReadWindowCoveringInstalledOpenLimitLift()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -29359,7 +50551,7 @@ class ReadWindowCoveringTargetPositionTiltPercent100ths : public ModelCommand
 
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeTargetPositionTiltPercent100ths(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeInstalledOpenLimitLift(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -29369,19 +50561,19 @@ class ReadWindowCoveringTargetPositionTiltPercent100ths : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class ReportWindowCoveringTargetPositionTiltPercent100ths : public ModelCommand
+class ReportWindowCoveringInstalledOpenLimitLift : public ModelCommand
 {
 public:
-    ReportWindowCoveringTargetPositionTiltPercent100ths() : ModelCommand("report")
+    ReportWindowCoveringInstalledOpenLimitLift() : ModelCommand("report")
     {
-        AddArgument("attr-name", "target-position-tilt-percent100ths");
+        AddArgument("attr-name", "installed-open-limit-lift");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportWindowCoveringTargetPositionTiltPercent100ths()
+    ~ReportWindowCoveringInstalledOpenLimitLift()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -29396,11 +50588,11 @@ class ReportWindowCoveringTargetPositionTiltPercent100ths : public ModelCommand
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeTargetPositionTiltPercent100ths(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeInstalledOpenLimitLift(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeTargetPositionTiltPercent100ths(successCallback, onFailureCallback->Cancel(), mMinInterval,
-                                                                         mMaxInterval);
+        return cluster.SubscribeAttributeInstalledOpenLimitLift(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -29423,52 +50615,18 @@ class ReportWindowCoveringTargetPositionTiltPercent100ths : public ModelCommand
 };
 
 /*
- * Attribute EndProductType
- */
-class ReadWindowCoveringEndProductType : public ModelCommand
-{
-public:
-    ReadWindowCoveringEndProductType() : ModelCommand("read")
-    {
-        AddArgument("attr-name", "end-product-type");
-        ModelCommand::AddArguments();
-    }
-
-    ~ReadWindowCoveringEndProductType()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
-    }
-
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
-    {
-        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x00) on endpoint %" PRIu8, endpointId);
-
-        chip::Controller::WindowCoveringCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeEndProductType(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
-    }
-
-private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-};
-
-/*
- * Attribute CurrentPositionLiftPercent100ths
+ * Attribute InstalledClosedLimitLift
  */
-class ReadWindowCoveringCurrentPositionLiftPercent100ths : public ModelCommand
+class ReadWindowCoveringInstalledClosedLimitLift : public ModelCommand
 {
 public:
-    ReadWindowCoveringCurrentPositionLiftPercent100ths() : ModelCommand("read")
+    ReadWindowCoveringInstalledClosedLimitLift() : ModelCommand("read")
     {
-        AddArgument("attr-name", "current-position-lift-percent100ths");
+        AddArgument("attr-name", "installed-closed-limit-lift");
         ModelCommand::AddArguments();
     }
 
-    ~ReadWindowCoveringCurrentPositionLiftPercent100ths()
+    ~ReadWindowCoveringInstalledClosedLimitLift()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -29480,7 +50638,7 @@ class ReadWindowCoveringCurrentPositionLiftPercent100ths : public ModelCommand
 
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentPositionLiftPercent100ths(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeInstalledClosedLimitLift(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -29490,19 +50648,19 @@ class ReadWindowCoveringCurrentPositionLiftPercent100ths : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class ReportWindowCoveringCurrentPositionLiftPercent100ths : public ModelCommand
+class ReportWindowCoveringInstalledClosedLimitLift : public ModelCommand
 {
 public:
-    ReportWindowCoveringCurrentPositionLiftPercent100ths() : ModelCommand("report")
+    ReportWindowCoveringInstalledClosedLimitLift() : ModelCommand("report")
     {
-        AddArgument("attr-name", "current-position-lift-percent100ths");
+        AddArgument("attr-name", "installed-closed-limit-lift");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportWindowCoveringCurrentPositionLiftPercent100ths()
+    ~ReportWindowCoveringInstalledClosedLimitLift()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -29517,11 +50675,11 @@ class ReportWindowCoveringCurrentPositionLiftPercent100ths : public ModelCommand
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeCurrentPositionLiftPercent100ths(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeInstalledClosedLimitLift(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeCurrentPositionLiftPercent100ths(successCallback, onFailureCallback->Cancel(),
-                                                                          mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeInstalledClosedLimitLift(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                  mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -29544,18 +50702,18 @@ class ReportWindowCoveringCurrentPositionLiftPercent100ths : public ModelCommand
 };
 
 /*
- * Attribute CurrentPositionTiltPercent100ths
+ * Attribute InstalledOpenLimitTilt
  */
-class ReadWindowCoveringCurrentPositionTiltPercent100ths : public ModelCommand
+class ReadWindowCoveringInstalledOpenLimitTilt : public ModelCommand
 {
 public:
-    ReadWindowCoveringCurrentPositionTiltPercent100ths() : ModelCommand("read")
+    ReadWindowCoveringInstalledOpenLimitTilt() : ModelCommand("read")
     {
-        AddArgument("attr-name", "current-position-tilt-percent100ths");
+        AddArgument("attr-name", "installed-open-limit-tilt");
         ModelCommand::AddArguments();
     }
 
-    ~ReadWindowCoveringCurrentPositionTiltPercent100ths()
+    ~ReadWindowCoveringInstalledOpenLimitTilt()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -29567,7 +50725,7 @@ class ReadWindowCoveringCurrentPositionTiltPercent100ths : public ModelCommand
 
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeCurrentPositionTiltPercent100ths(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeInstalledOpenLimitTilt(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -29577,19 +50735,19 @@ class ReadWindowCoveringCurrentPositionTiltPercent100ths : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-class ReportWindowCoveringCurrentPositionTiltPercent100ths : public ModelCommand
+class ReportWindowCoveringInstalledOpenLimitTilt : public ModelCommand
 {
 public:
-    ReportWindowCoveringCurrentPositionTiltPercent100ths() : ModelCommand("report")
+    ReportWindowCoveringInstalledOpenLimitTilt() : ModelCommand("report")
     {
-        AddArgument("attr-name", "current-position-tilt-percent100ths");
+        AddArgument("attr-name", "installed-open-limit-tilt");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
         AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReportWindowCoveringCurrentPositionTiltPercent100ths()
+    ~ReportWindowCoveringInstalledOpenLimitTilt()
     {
         delete onSuccessCallback;
         delete onSuccessCallbackWithoutExit;
@@ -29604,11 +50762,11 @@ class ReportWindowCoveringCurrentPositionTiltPercent100ths : public ModelCommand
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
 
-        ReturnErrorOnFailure(cluster.ReportAttributeCurrentPositionTiltPercent100ths(onReportCallback->Cancel()));
+        ReturnErrorOnFailure(cluster.ReportAttributeInstalledOpenLimitTilt(onReportCallback->Cancel()));
 
         chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
-        return cluster.SubscribeAttributeCurrentPositionTiltPercent100ths(successCallback, onFailureCallback->Cancel(),
-                                                                          mMinInterval, mMaxInterval);
+        return cluster.SubscribeAttributeInstalledOpenLimitTilt(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                mMaxInterval);
     }
 
     chip::System::Clock::Timeout GetWaitDuration() const override
@@ -29631,18 +50789,18 @@ class ReportWindowCoveringCurrentPositionTiltPercent100ths : public ModelCommand
 };
 
 /*
- * Attribute InstalledOpenLimitLift
+ * Attribute InstalledClosedLimitTilt
  */
-class ReadWindowCoveringInstalledOpenLimitLift : public ModelCommand
+class ReadWindowCoveringInstalledClosedLimitTilt : public ModelCommand
 {
 public:
-    ReadWindowCoveringInstalledOpenLimitLift() : ModelCommand("read")
+    ReadWindowCoveringInstalledClosedLimitTilt() : ModelCommand("read")
     {
-        AddArgument("attr-name", "installed-open-limit-lift");
+        AddArgument("attr-name", "installed-closed-limit-tilt");
         ModelCommand::AddArguments();
     }
 
-    ~ReadWindowCoveringInstalledOpenLimitLift()
+    ~ReadWindowCoveringInstalledClosedLimitTilt()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -29654,7 +50812,7 @@ class ReadWindowCoveringInstalledOpenLimitLift : public ModelCommand
 
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeInstalledOpenLimitLift(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeInstalledClosedLimitTilt(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
@@ -29664,87 +50822,72 @@ class ReadWindowCoveringInstalledOpenLimitLift : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute InstalledClosedLimitLift
- */
-class ReadWindowCoveringInstalledClosedLimitLift : public ModelCommand
+class ReportWindowCoveringInstalledClosedLimitTilt : public ModelCommand
 {
 public:
-    ReadWindowCoveringInstalledClosedLimitLift() : ModelCommand("read")
+    ReportWindowCoveringInstalledClosedLimitTilt() : ModelCommand("report")
     {
-        AddArgument("attr-name", "installed-closed-limit-lift");
+        AddArgument("attr-name", "installed-closed-limit-tilt");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~ReadWindowCoveringInstalledClosedLimitLift()
+    ~ReportWindowCoveringInstalledClosedLimitTilt()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeInstalledClosedLimitLift(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
-    }
-
-private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
-    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
-        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-};
 
-/*
- * Attribute InstalledOpenLimitTilt
- */
-class ReadWindowCoveringInstalledOpenLimitTilt : public ModelCommand
-{
-public:
-    ReadWindowCoveringInstalledOpenLimitTilt() : ModelCommand("read")
-    {
-        AddArgument("attr-name", "installed-open-limit-tilt");
-        ModelCommand::AddArguments();
-    }
+        ReturnErrorOnFailure(cluster.ReportAttributeInstalledClosedLimitTilt(onReportCallback->Cancel()));
 
-    ~ReadWindowCoveringInstalledOpenLimitTilt()
-    {
-        delete onSuccessCallback;
-        delete onFailureCallback;
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeInstalledClosedLimitTilt(successCallback, onFailureCallback->Cancel(), mMinInterval,
+                                                                  mMaxInterval);
     }
 
-    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    chip::System::Clock::Timeout GetWaitDuration() const override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x00) on endpoint %" PRIu8, endpointId);
-
-        chip::Controller::WindowCoveringCluster cluster;
-        cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeInstalledOpenLimitTilt(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
- * Attribute InstalledClosedLimitTilt
+ * Attribute Mode
  */
-class ReadWindowCoveringInstalledClosedLimitTilt : public ModelCommand
+class ReadWindowCoveringMode : public ModelCommand
 {
 public:
-    ReadWindowCoveringInstalledClosedLimitTilt() : ModelCommand("read")
+    ReadWindowCoveringMode() : ModelCommand("read")
     {
-        AddArgument("attr-name", "installed-closed-limit-tilt");
+        AddArgument("attr-name", "mode");
         ModelCommand::AddArguments();
     }
 
-    ~ReadWindowCoveringInstalledClosedLimitTilt()
+    ~ReadWindowCoveringMode()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -29756,29 +50899,27 @@ class ReadWindowCoveringInstalledClosedLimitTilt : public ModelCommand
 
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeInstalledClosedLimitTilt(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.ReadAttributeMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
     }
 
 private:
-    chip::Callback::Callback<Int16uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
-/*
- * Attribute Mode
- */
-class ReadWindowCoveringMode : public ModelCommand
+class WriteWindowCoveringMode : public ModelCommand
 {
 public:
-    ReadWindowCoveringMode() : ModelCommand("read")
+    WriteWindowCoveringMode() : ModelCommand("write")
     {
         AddArgument("attr-name", "mode");
+        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
         ModelCommand::AddArguments();
     }
 
-    ~ReadWindowCoveringMode()
+    ~WriteWindowCoveringMode()
     {
         delete onSuccessCallback;
         delete onFailureCallback;
@@ -29786,51 +50927,71 @@ class ReadWindowCoveringMode : public ModelCommand
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x00) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x01) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.ReadAttributeMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel());
+        return cluster.WriteAttributeMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
     }
 
 private:
-    chip::Callback::Callback<Int8uAttributeCallback> * onSuccessCallback =
-        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    uint8_t mValue;
 };
 
-class WriteWindowCoveringMode : public ModelCommand
+class ReportWindowCoveringMode : public ModelCommand
 {
 public:
-    WriteWindowCoveringMode() : ModelCommand("write")
+    ReportWindowCoveringMode() : ModelCommand("report")
     {
         AddArgument("attr-name", "mode");
-        AddArgument("attr-value", 0, UINT8_MAX, &mValue);
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
         ModelCommand::AddArguments();
     }
 
-    ~WriteWindowCoveringMode()
+    ~ReportWindowCoveringMode()
     {
         delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
         delete onFailureCallback;
+        delete onReportCallback;
     }
 
     CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
     {
-        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x01) on endpoint %" PRIu8, endpointId);
+        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x06) on endpoint %" PRIu8, endpointId);
 
         chip::Controller::WindowCoveringCluster cluster;
         cluster.Associate(device, endpointId);
-        return cluster.WriteAttributeMode(onSuccessCallback->Cancel(), onFailureCallback->Cancel(), mValue);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeMode(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeMode(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
     }
 
 private:
     chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
         new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
     chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
-    uint8_t mValue;
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
 };
 
 /*
@@ -29953,6 +51114,58 @@ class ReadWindowCoveringFeatureMap : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
+class ReportWindowCoveringFeatureMap : public ModelCommand
+{
+public:
+    ReportWindowCoveringFeatureMap() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "feature-map");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportWindowCoveringFeatureMap()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::WindowCoveringCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeFeatureMap(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeFeatureMap(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
 /*
  * Attribute ClusterRevision
  */
@@ -29987,6 +51200,58 @@ class ReadWindowCoveringClusterRevision : public ModelCommand
         new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
 };
 
+class ReportWindowCoveringClusterRevision : public ModelCommand
+{
+public:
+    ReportWindowCoveringClusterRevision() : ModelCommand("report")
+    {
+        AddArgument("attr-name", "cluster-revision");
+        AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval);
+        AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval);
+        AddArgument("wait", 0, 1, &mWait);
+        ModelCommand::AddArguments();
+    }
+
+    ~ReportWindowCoveringClusterRevision()
+    {
+        delete onSuccessCallback;
+        delete onSuccessCallbackWithoutExit;
+        delete onFailureCallback;
+        delete onReportCallback;
+    }
+
+    CHIP_ERROR SendCommand(ChipDevice * device, uint8_t endpointId) override
+    {
+        ChipLogProgress(chipTool, "Sending cluster (0x0102) command (0x06) on endpoint %" PRIu8, endpointId);
+
+        chip::Controller::WindowCoveringCluster cluster;
+        cluster.Associate(device, endpointId);
+
+        ReturnErrorOnFailure(cluster.ReportAttributeClusterRevision(onReportCallback->Cancel()));
+
+        chip::Callback::Cancelable * successCallback = mWait ? onSuccessCallbackWithoutExit->Cancel() : onSuccessCallback->Cancel();
+        return cluster.SubscribeAttributeClusterRevision(successCallback, onFailureCallback->Cancel(), mMinInterval, mMaxInterval);
+    }
+
+    chip::System::Clock::Timeout GetWaitDuration() const override
+    {
+        return chip::System::Clock::Seconds16(mWait ? UINT16_MAX : 10);
+    }
+
+private:
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallback =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponse, this);
+    chip::Callback::Callback<DefaultSuccessCallback> * onSuccessCallbackWithoutExit =
+        new chip::Callback::Callback<DefaultSuccessCallback>(OnDefaultSuccessResponseWithoutExit, this);
+    chip::Callback::Callback<DefaultFailureCallback> * onFailureCallback =
+        new chip::Callback::Callback<DefaultFailureCallback>(OnDefaultFailureResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeReport, this);
+    uint16_t mMinInterval;
+    uint16_t mMaxInterval;
+    bool mWait;
+};
+
 /*----------------------------------------------------------------------------*\
 | Register all Clusters commands                                               |
 \*----------------------------------------------------------------------------*/
@@ -29995,9 +51260,10 @@ void registerClusterAccountLogin(Commands & commands)
     const char * clusterName = "AccountLogin";
 
     commands_list clusterCommands = {
-        make_unique<AccountLoginGetSetupPIN>(),         //
-        make_unique<AccountLoginLogin>(),               //
-        make_unique<ReadAccountLoginClusterRevision>(), //
+        make_unique<AccountLoginGetSetupPIN>(),           //
+        make_unique<AccountLoginLogin>(),                 //
+        make_unique<ReadAccountLoginClusterRevision>(),   //
+        make_unique<ReportAccountLoginClusterRevision>(), //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30011,6 +51277,7 @@ void registerClusterAdministratorCommissioning(Commands & commands)
         make_unique<AdministratorCommissioningOpenCommissioningWindow>(),      //
         make_unique<AdministratorCommissioningRevokeCommissioning>(),          //
         make_unique<ReadAdministratorCommissioningClusterRevision>(),          //
+        make_unique<ReportAdministratorCommissioningClusterRevision>(),        //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30020,15 +51287,23 @@ void registerClusterApplicationBasic(Commands & commands)
     const char * clusterName = "ApplicationBasic";
 
     commands_list clusterCommands = {
-        make_unique<ApplicationBasicChangeStatus>(),          //
-        make_unique<ReadApplicationBasicVendorName>(),        //
-        make_unique<ReadApplicationBasicVendorId>(),          //
-        make_unique<ReadApplicationBasicApplicationName>(),   //
-        make_unique<ReadApplicationBasicProductId>(),         //
-        make_unique<ReadApplicationBasicApplicationId>(),     //
-        make_unique<ReadApplicationBasicCatalogVendorId>(),   //
-        make_unique<ReadApplicationBasicApplicationStatus>(), //
-        make_unique<ReadApplicationBasicClusterRevision>(),   //
+        make_unique<ApplicationBasicChangeStatus>(),            //
+        make_unique<ReadApplicationBasicVendorName>(),          //
+        make_unique<ReportApplicationBasicVendorName>(),        //
+        make_unique<ReadApplicationBasicVendorId>(),            //
+        make_unique<ReportApplicationBasicVendorId>(),          //
+        make_unique<ReadApplicationBasicApplicationName>(),     //
+        make_unique<ReportApplicationBasicApplicationName>(),   //
+        make_unique<ReadApplicationBasicProductId>(),           //
+        make_unique<ReportApplicationBasicProductId>(),         //
+        make_unique<ReadApplicationBasicApplicationId>(),       //
+        make_unique<ReportApplicationBasicApplicationId>(),     //
+        make_unique<ReadApplicationBasicCatalogVendorId>(),     //
+        make_unique<ReportApplicationBasicCatalogVendorId>(),   //
+        make_unique<ReadApplicationBasicApplicationStatus>(),   //
+        make_unique<ReportApplicationBasicApplicationStatus>(), //
+        make_unique<ReadApplicationBasicClusterRevision>(),     //
+        make_unique<ReportApplicationBasicClusterRevision>(),   //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30041,8 +51316,11 @@ void registerClusterApplicationLauncher(Commands & commands)
         make_unique<ApplicationLauncherLaunchApp>(),                   //
         make_unique<ReadApplicationLauncherApplicationLauncherList>(), //
         make_unique<ReadApplicationLauncherCatalogVendorId>(),         //
+        make_unique<ReportApplicationLauncherCatalogVendorId>(),       //
         make_unique<ReadApplicationLauncherApplicationId>(),           //
+        make_unique<ReportApplicationLauncherApplicationId>(),         //
         make_unique<ReadApplicationLauncherClusterRevision>(),         //
+        make_unique<ReportApplicationLauncherClusterRevision>(),       //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30052,11 +51330,13 @@ void registerClusterAudioOutput(Commands & commands)
     const char * clusterName = "AudioOutput";
 
     commands_list clusterCommands = {
-        make_unique<AudioOutputRenameOutput>(),           //
-        make_unique<AudioOutputSelectOutput>(),           //
-        make_unique<ReadAudioOutputAudioOutputList>(),    //
-        make_unique<ReadAudioOutputCurrentAudioOutput>(), //
-        make_unique<ReadAudioOutputClusterRevision>(),    //
+        make_unique<AudioOutputRenameOutput>(),             //
+        make_unique<AudioOutputSelectOutput>(),             //
+        make_unique<ReadAudioOutputAudioOutputList>(),      //
+        make_unique<ReadAudioOutputCurrentAudioOutput>(),   //
+        make_unique<ReportAudioOutputCurrentAudioOutput>(), //
+        make_unique<ReadAudioOutputClusterRevision>(),      //
+        make_unique<ReportAudioOutputClusterRevision>(),    //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30069,10 +51349,15 @@ void registerClusterBarrierControl(Commands & commands)
         make_unique<BarrierControlBarrierControlGoToPercent>(), //
         make_unique<BarrierControlBarrierControlStop>(),        //
         make_unique<ReadBarrierControlBarrierMovingState>(),    //
+        make_unique<ReportBarrierControlBarrierMovingState>(),  //
         make_unique<ReadBarrierControlBarrierSafetyStatus>(),   //
+        make_unique<ReportBarrierControlBarrierSafetyStatus>(), //
         make_unique<ReadBarrierControlBarrierCapabilities>(),   //
+        make_unique<ReportBarrierControlBarrierCapabilities>(), //
         make_unique<ReadBarrierControlBarrierPosition>(),       //
+        make_unique<ReportBarrierControlBarrierPosition>(),     //
         make_unique<ReadBarrierControlClusterRevision>(),       //
+        make_unique<ReportBarrierControlClusterRevision>(),     //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30082,29 +51367,48 @@ void registerClusterBasic(Commands & commands)
     const char * clusterName = "Basic";
 
     commands_list clusterCommands = {
-        make_unique<BasicMfgSpecificPing>(),             //
-        make_unique<ReadBasicInteractionModelVersion>(), //
-        make_unique<ReadBasicVendorName>(),              //
-        make_unique<ReadBasicVendorID>(),                //
-        make_unique<ReadBasicProductName>(),             //
-        make_unique<ReadBasicProductID>(),               //
-        make_unique<ReadBasicUserLabel>(),               //
-        make_unique<WriteBasicUserLabel>(),              //
-        make_unique<ReadBasicLocation>(),                //
-        make_unique<WriteBasicLocation>(),               //
-        make_unique<ReadBasicHardwareVersion>(),         //
-        make_unique<ReadBasicHardwareVersionString>(),   //
-        make_unique<ReadBasicSoftwareVersion>(),         //
-        make_unique<ReadBasicSoftwareVersionString>(),   //
-        make_unique<ReadBasicManufacturingDate>(),       //
-        make_unique<ReadBasicPartNumber>(),              //
-        make_unique<ReadBasicProductURL>(),              //
-        make_unique<ReadBasicProductLabel>(),            //
-        make_unique<ReadBasicSerialNumber>(),            //
-        make_unique<ReadBasicLocalConfigDisabled>(),     //
-        make_unique<WriteBasicLocalConfigDisabled>(),    //
-        make_unique<ReadBasicReachable>(),               //
-        make_unique<ReadBasicClusterRevision>(),         //
+        make_unique<BasicMfgSpecificPing>(),               //
+        make_unique<ReadBasicInteractionModelVersion>(),   //
+        make_unique<ReportBasicInteractionModelVersion>(), //
+        make_unique<ReadBasicVendorName>(),                //
+        make_unique<ReportBasicVendorName>(),              //
+        make_unique<ReadBasicVendorID>(),                  //
+        make_unique<ReportBasicVendorID>(),                //
+        make_unique<ReadBasicProductName>(),               //
+        make_unique<ReportBasicProductName>(),             //
+        make_unique<ReadBasicProductID>(),                 //
+        make_unique<ReportBasicProductID>(),               //
+        make_unique<ReadBasicUserLabel>(),                 //
+        make_unique<WriteBasicUserLabel>(),                //
+        make_unique<ReportBasicUserLabel>(),               //
+        make_unique<ReadBasicLocation>(),                  //
+        make_unique<WriteBasicLocation>(),                 //
+        make_unique<ReportBasicLocation>(),                //
+        make_unique<ReadBasicHardwareVersion>(),           //
+        make_unique<ReportBasicHardwareVersion>(),         //
+        make_unique<ReadBasicHardwareVersionString>(),     //
+        make_unique<ReportBasicHardwareVersionString>(),   //
+        make_unique<ReadBasicSoftwareVersion>(),           //
+        make_unique<ReportBasicSoftwareVersion>(),         //
+        make_unique<ReadBasicSoftwareVersionString>(),     //
+        make_unique<ReportBasicSoftwareVersionString>(),   //
+        make_unique<ReadBasicManufacturingDate>(),         //
+        make_unique<ReportBasicManufacturingDate>(),       //
+        make_unique<ReadBasicPartNumber>(),                //
+        make_unique<ReportBasicPartNumber>(),              //
+        make_unique<ReadBasicProductURL>(),                //
+        make_unique<ReportBasicProductURL>(),              //
+        make_unique<ReadBasicProductLabel>(),              //
+        make_unique<ReportBasicProductLabel>(),            //
+        make_unique<ReadBasicSerialNumber>(),              //
+        make_unique<ReportBasicSerialNumber>(),            //
+        make_unique<ReadBasicLocalConfigDisabled>(),       //
+        make_unique<WriteBasicLocalConfigDisabled>(),      //
+        make_unique<ReportBasicLocalConfigDisabled>(),     //
+        make_unique<ReadBasicReachable>(),                 //
+        make_unique<ReportBasicReachable>(),               //
+        make_unique<ReadBasicClusterRevision>(),           //
+        make_unique<ReportBasicClusterRevision>(),         //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30114,14 +51418,16 @@ void registerClusterBinaryInputBasic(Commands & commands)
     const char * clusterName = "BinaryInputBasic";
 
     commands_list clusterCommands = {
-        make_unique<ReadBinaryInputBasicOutOfService>(),    //
-        make_unique<WriteBinaryInputBasicOutOfService>(),   //
-        make_unique<ReadBinaryInputBasicPresentValue>(),    //
-        make_unique<WriteBinaryInputBasicPresentValue>(),   //
-        make_unique<ReportBinaryInputBasicPresentValue>(),  //
-        make_unique<ReadBinaryInputBasicStatusFlags>(),     //
-        make_unique<ReportBinaryInputBasicStatusFlags>(),   //
-        make_unique<ReadBinaryInputBasicClusterRevision>(), //
+        make_unique<ReadBinaryInputBasicOutOfService>(),      //
+        make_unique<WriteBinaryInputBasicOutOfService>(),     //
+        make_unique<ReportBinaryInputBasicOutOfService>(),    //
+        make_unique<ReadBinaryInputBasicPresentValue>(),      //
+        make_unique<WriteBinaryInputBasicPresentValue>(),     //
+        make_unique<ReportBinaryInputBasicPresentValue>(),    //
+        make_unique<ReadBinaryInputBasicStatusFlags>(),       //
+        make_unique<ReportBinaryInputBasicStatusFlags>(),     //
+        make_unique<ReadBinaryInputBasicClusterRevision>(),   //
+        make_unique<ReportBinaryInputBasicClusterRevision>(), //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30131,9 +51437,10 @@ void registerClusterBinding(Commands & commands)
     const char * clusterName = "Binding";
 
     commands_list clusterCommands = {
-        make_unique<BindingBind>(),                //
-        make_unique<BindingUnbind>(),              //
-        make_unique<ReadBindingClusterRevision>(), //
+        make_unique<BindingBind>(),                  //
+        make_unique<BindingUnbind>(),                //
+        make_unique<ReadBindingClusterRevision>(),   //
+        make_unique<ReportBindingClusterRevision>(), //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30143,9 +51450,10 @@ void registerClusterBooleanState(Commands & commands)
     const char * clusterName = "BooleanState";
 
     commands_list clusterCommands = {
-        make_unique<ReadBooleanStateStateValue>(),      //
-        make_unique<ReportBooleanStateStateValue>(),    //
-        make_unique<ReadBooleanStateClusterRevision>(), //
+        make_unique<ReadBooleanStateStateValue>(),        //
+        make_unique<ReportBooleanStateStateValue>(),      //
+        make_unique<ReadBooleanStateClusterRevision>(),   //
+        make_unique<ReportBooleanStateClusterRevision>(), //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30170,7 +51478,9 @@ void registerClusterBridgedActions(Commands & commands)
         make_unique<ReadBridgedActionsActionList>(),              //
         make_unique<ReadBridgedActionsEndpointList>(),            //
         make_unique<ReadBridgedActionsSetupUrl>(),                //
+        make_unique<ReportBridgedActionsSetupUrl>(),              //
         make_unique<ReadBridgedActionsClusterRevision>(),         //
+        make_unique<ReportBridgedActionsClusterRevision>(),       //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30180,7 +51490,8 @@ void registerClusterBridgedDeviceBasicInformation(Commands & commands)
     const char * clusterName = "BridgedDeviceBasicInformation";
 
     commands_list clusterCommands = {
-        make_unique<ReadBridgedDeviceBasicInformationClusterRevision>(), //
+        make_unique<ReadBridgedDeviceBasicInformationClusterRevision>(),   //
+        make_unique<ReportBridgedDeviceBasicInformationClusterRevision>(), //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30190,96 +51501,144 @@ void registerClusterColorControl(Commands & commands)
     const char * clusterName = "ColorControl";
 
     commands_list clusterCommands = {
-        make_unique<ColorControlColorLoopSet>(),                        //
-        make_unique<ColorControlEnhancedMoveHue>(),                     //
-        make_unique<ColorControlEnhancedMoveToHue>(),                   //
-        make_unique<ColorControlEnhancedMoveToHueAndSaturation>(),      //
-        make_unique<ColorControlEnhancedStepHue>(),                     //
-        make_unique<ColorControlMoveColor>(),                           //
-        make_unique<ColorControlMoveColorTemperature>(),                //
-        make_unique<ColorControlMoveHue>(),                             //
-        make_unique<ColorControlMoveSaturation>(),                      //
-        make_unique<ColorControlMoveToColor>(),                         //
-        make_unique<ColorControlMoveToColorTemperature>(),              //
-        make_unique<ColorControlMoveToHue>(),                           //
-        make_unique<ColorControlMoveToHueAndSaturation>(),              //
-        make_unique<ColorControlMoveToSaturation>(),                    //
-        make_unique<ColorControlStepColor>(),                           //
-        make_unique<ColorControlStepColorTemperature>(),                //
-        make_unique<ColorControlStepHue>(),                             //
-        make_unique<ColorControlStepSaturation>(),                      //
-        make_unique<ColorControlStopMoveStep>(),                        //
-        make_unique<ReadColorControlCurrentHue>(),                      //
-        make_unique<ReportColorControlCurrentHue>(),                    //
-        make_unique<ReadColorControlCurrentSaturation>(),               //
-        make_unique<ReportColorControlCurrentSaturation>(),             //
-        make_unique<ReadColorControlRemainingTime>(),                   //
-        make_unique<ReadColorControlCurrentX>(),                        //
-        make_unique<ReportColorControlCurrentX>(),                      //
-        make_unique<ReadColorControlCurrentY>(),                        //
-        make_unique<ReportColorControlCurrentY>(),                      //
-        make_unique<ReadColorControlDriftCompensation>(),               //
-        make_unique<ReadColorControlCompensationText>(),                //
-        make_unique<ReadColorControlColorTemperature>(),                //
-        make_unique<ReportColorControlColorTemperature>(),              //
-        make_unique<ReadColorControlColorMode>(),                       //
-        make_unique<ReadColorControlColorControlOptions>(),             //
-        make_unique<WriteColorControlColorControlOptions>(),            //
-        make_unique<ReadColorControlNumberOfPrimaries>(),               //
-        make_unique<ReadColorControlPrimary1X>(),                       //
-        make_unique<ReadColorControlPrimary1Y>(),                       //
-        make_unique<ReadColorControlPrimary1Intensity>(),               //
-        make_unique<ReadColorControlPrimary2X>(),                       //
-        make_unique<ReadColorControlPrimary2Y>(),                       //
-        make_unique<ReadColorControlPrimary2Intensity>(),               //
-        make_unique<ReadColorControlPrimary3X>(),                       //
-        make_unique<ReadColorControlPrimary3Y>(),                       //
-        make_unique<ReadColorControlPrimary3Intensity>(),               //
-        make_unique<ReadColorControlPrimary4X>(),                       //
-        make_unique<ReadColorControlPrimary4Y>(),                       //
-        make_unique<ReadColorControlPrimary4Intensity>(),               //
-        make_unique<ReadColorControlPrimary5X>(),                       //
-        make_unique<ReadColorControlPrimary5Y>(),                       //
-        make_unique<ReadColorControlPrimary5Intensity>(),               //
-        make_unique<ReadColorControlPrimary6X>(),                       //
-        make_unique<ReadColorControlPrimary6Y>(),                       //
-        make_unique<ReadColorControlPrimary6Intensity>(),               //
-        make_unique<ReadColorControlWhitePointX>(),                     //
-        make_unique<WriteColorControlWhitePointX>(),                    //
-        make_unique<ReadColorControlWhitePointY>(),                     //
-        make_unique<WriteColorControlWhitePointY>(),                    //
-        make_unique<ReadColorControlColorPointRX>(),                    //
-        make_unique<WriteColorControlColorPointRX>(),                   //
-        make_unique<ReadColorControlColorPointRY>(),                    //
-        make_unique<WriteColorControlColorPointRY>(),                   //
-        make_unique<ReadColorControlColorPointRIntensity>(),            //
-        make_unique<WriteColorControlColorPointRIntensity>(),           //
-        make_unique<ReadColorControlColorPointGX>(),                    //
-        make_unique<WriteColorControlColorPointGX>(),                   //
-        make_unique<ReadColorControlColorPointGY>(),                    //
-        make_unique<WriteColorControlColorPointGY>(),                   //
-        make_unique<ReadColorControlColorPointGIntensity>(),            //
-        make_unique<WriteColorControlColorPointGIntensity>(),           //
-        make_unique<ReadColorControlColorPointBX>(),                    //
-        make_unique<WriteColorControlColorPointBX>(),                   //
-        make_unique<ReadColorControlColorPointBY>(),                    //
-        make_unique<WriteColorControlColorPointBY>(),                   //
-        make_unique<ReadColorControlColorPointBIntensity>(),            //
-        make_unique<WriteColorControlColorPointBIntensity>(),           //
-        make_unique<ReadColorControlEnhancedCurrentHue>(),              //
-        make_unique<ReadColorControlEnhancedColorMode>(),               //
-        make_unique<ReadColorControlColorLoopActive>(),                 //
-        make_unique<ReadColorControlColorLoopDirection>(),              //
-        make_unique<ReadColorControlColorLoopTime>(),                   //
-        make_unique<ReadColorControlColorLoopStartEnhancedHue>(),       //
-        make_unique<ReadColorControlColorLoopStoredEnhancedHue>(),      //
-        make_unique<ReadColorControlColorCapabilities>(),               //
-        make_unique<ReadColorControlColorTempPhysicalMin>(),            //
-        make_unique<ReadColorControlColorTempPhysicalMax>(),            //
-        make_unique<ReadColorControlCoupleColorTempToLevelMinMireds>(), //
-        make_unique<ReadColorControlStartUpColorTemperatureMireds>(),   //
-        make_unique<WriteColorControlStartUpColorTemperatureMireds>(),  //
-        make_unique<ReadColorControlClusterRevision>(),                 //
+        make_unique<ColorControlColorLoopSet>(),                          //
+        make_unique<ColorControlEnhancedMoveHue>(),                       //
+        make_unique<ColorControlEnhancedMoveToHue>(),                     //
+        make_unique<ColorControlEnhancedMoveToHueAndSaturation>(),        //
+        make_unique<ColorControlEnhancedStepHue>(),                       //
+        make_unique<ColorControlMoveColor>(),                             //
+        make_unique<ColorControlMoveColorTemperature>(),                  //
+        make_unique<ColorControlMoveHue>(),                               //
+        make_unique<ColorControlMoveSaturation>(),                        //
+        make_unique<ColorControlMoveToColor>(),                           //
+        make_unique<ColorControlMoveToColorTemperature>(),                //
+        make_unique<ColorControlMoveToHue>(),                             //
+        make_unique<ColorControlMoveToHueAndSaturation>(),                //
+        make_unique<ColorControlMoveToSaturation>(),                      //
+        make_unique<ColorControlStepColor>(),                             //
+        make_unique<ColorControlStepColorTemperature>(),                  //
+        make_unique<ColorControlStepHue>(),                               //
+        make_unique<ColorControlStepSaturation>(),                        //
+        make_unique<ColorControlStopMoveStep>(),                          //
+        make_unique<ReadColorControlCurrentHue>(),                        //
+        make_unique<ReportColorControlCurrentHue>(),                      //
+        make_unique<ReadColorControlCurrentSaturation>(),                 //
+        make_unique<ReportColorControlCurrentSaturation>(),               //
+        make_unique<ReadColorControlRemainingTime>(),                     //
+        make_unique<ReportColorControlRemainingTime>(),                   //
+        make_unique<ReadColorControlCurrentX>(),                          //
+        make_unique<ReportColorControlCurrentX>(),                        //
+        make_unique<ReadColorControlCurrentY>(),                          //
+        make_unique<ReportColorControlCurrentY>(),                        //
+        make_unique<ReadColorControlDriftCompensation>(),                 //
+        make_unique<ReportColorControlDriftCompensation>(),               //
+        make_unique<ReadColorControlCompensationText>(),                  //
+        make_unique<ReportColorControlCompensationText>(),                //
+        make_unique<ReadColorControlColorTemperature>(),                  //
+        make_unique<ReportColorControlColorTemperature>(),                //
+        make_unique<ReadColorControlColorMode>(),                         //
+        make_unique<ReportColorControlColorMode>(),                       //
+        make_unique<ReadColorControlColorControlOptions>(),               //
+        make_unique<WriteColorControlColorControlOptions>(),              //
+        make_unique<ReportColorControlColorControlOptions>(),             //
+        make_unique<ReadColorControlNumberOfPrimaries>(),                 //
+        make_unique<ReportColorControlNumberOfPrimaries>(),               //
+        make_unique<ReadColorControlPrimary1X>(),                         //
+        make_unique<ReportColorControlPrimary1X>(),                       //
+        make_unique<ReadColorControlPrimary1Y>(),                         //
+        make_unique<ReportColorControlPrimary1Y>(),                       //
+        make_unique<ReadColorControlPrimary1Intensity>(),                 //
+        make_unique<ReportColorControlPrimary1Intensity>(),               //
+        make_unique<ReadColorControlPrimary2X>(),                         //
+        make_unique<ReportColorControlPrimary2X>(),                       //
+        make_unique<ReadColorControlPrimary2Y>(),                         //
+        make_unique<ReportColorControlPrimary2Y>(),                       //
+        make_unique<ReadColorControlPrimary2Intensity>(),                 //
+        make_unique<ReportColorControlPrimary2Intensity>(),               //
+        make_unique<ReadColorControlPrimary3X>(),                         //
+        make_unique<ReportColorControlPrimary3X>(),                       //
+        make_unique<ReadColorControlPrimary3Y>(),                         //
+        make_unique<ReportColorControlPrimary3Y>(),                       //
+        make_unique<ReadColorControlPrimary3Intensity>(),                 //
+        make_unique<ReportColorControlPrimary3Intensity>(),               //
+        make_unique<ReadColorControlPrimary4X>(),                         //
+        make_unique<ReportColorControlPrimary4X>(),                       //
+        make_unique<ReadColorControlPrimary4Y>(),                         //
+        make_unique<ReportColorControlPrimary4Y>(),                       //
+        make_unique<ReadColorControlPrimary4Intensity>(),                 //
+        make_unique<ReportColorControlPrimary4Intensity>(),               //
+        make_unique<ReadColorControlPrimary5X>(),                         //
+        make_unique<ReportColorControlPrimary5X>(),                       //
+        make_unique<ReadColorControlPrimary5Y>(),                         //
+        make_unique<ReportColorControlPrimary5Y>(),                       //
+        make_unique<ReadColorControlPrimary5Intensity>(),                 //
+        make_unique<ReportColorControlPrimary5Intensity>(),               //
+        make_unique<ReadColorControlPrimary6X>(),                         //
+        make_unique<ReportColorControlPrimary6X>(),                       //
+        make_unique<ReadColorControlPrimary6Y>(),                         //
+        make_unique<ReportColorControlPrimary6Y>(),                       //
+        make_unique<ReadColorControlPrimary6Intensity>(),                 //
+        make_unique<ReportColorControlPrimary6Intensity>(),               //
+        make_unique<ReadColorControlWhitePointX>(),                       //
+        make_unique<WriteColorControlWhitePointX>(),                      //
+        make_unique<ReportColorControlWhitePointX>(),                     //
+        make_unique<ReadColorControlWhitePointY>(),                       //
+        make_unique<WriteColorControlWhitePointY>(),                      //
+        make_unique<ReportColorControlWhitePointY>(),                     //
+        make_unique<ReadColorControlColorPointRX>(),                      //
+        make_unique<WriteColorControlColorPointRX>(),                     //
+        make_unique<ReportColorControlColorPointRX>(),                    //
+        make_unique<ReadColorControlColorPointRY>(),                      //
+        make_unique<WriteColorControlColorPointRY>(),                     //
+        make_unique<ReportColorControlColorPointRY>(),                    //
+        make_unique<ReadColorControlColorPointRIntensity>(),              //
+        make_unique<WriteColorControlColorPointRIntensity>(),             //
+        make_unique<ReportColorControlColorPointRIntensity>(),            //
+        make_unique<ReadColorControlColorPointGX>(),                      //
+        make_unique<WriteColorControlColorPointGX>(),                     //
+        make_unique<ReportColorControlColorPointGX>(),                    //
+        make_unique<ReadColorControlColorPointGY>(),                      //
+        make_unique<WriteColorControlColorPointGY>(),                     //
+        make_unique<ReportColorControlColorPointGY>(),                    //
+        make_unique<ReadColorControlColorPointGIntensity>(),              //
+        make_unique<WriteColorControlColorPointGIntensity>(),             //
+        make_unique<ReportColorControlColorPointGIntensity>(),            //
+        make_unique<ReadColorControlColorPointBX>(),                      //
+        make_unique<WriteColorControlColorPointBX>(),                     //
+        make_unique<ReportColorControlColorPointBX>(),                    //
+        make_unique<ReadColorControlColorPointBY>(),                      //
+        make_unique<WriteColorControlColorPointBY>(),                     //
+        make_unique<ReportColorControlColorPointBY>(),                    //
+        make_unique<ReadColorControlColorPointBIntensity>(),              //
+        make_unique<WriteColorControlColorPointBIntensity>(),             //
+        make_unique<ReportColorControlColorPointBIntensity>(),            //
+        make_unique<ReadColorControlEnhancedCurrentHue>(),                //
+        make_unique<ReportColorControlEnhancedCurrentHue>(),              //
+        make_unique<ReadColorControlEnhancedColorMode>(),                 //
+        make_unique<ReportColorControlEnhancedColorMode>(),               //
+        make_unique<ReadColorControlColorLoopActive>(),                   //
+        make_unique<ReportColorControlColorLoopActive>(),                 //
+        make_unique<ReadColorControlColorLoopDirection>(),                //
+        make_unique<ReportColorControlColorLoopDirection>(),              //
+        make_unique<ReadColorControlColorLoopTime>(),                     //
+        make_unique<ReportColorControlColorLoopTime>(),                   //
+        make_unique<ReadColorControlColorLoopStartEnhancedHue>(),         //
+        make_unique<ReportColorControlColorLoopStartEnhancedHue>(),       //
+        make_unique<ReadColorControlColorLoopStoredEnhancedHue>(),        //
+        make_unique<ReportColorControlColorLoopStoredEnhancedHue>(),      //
+        make_unique<ReadColorControlColorCapabilities>(),                 //
+        make_unique<ReportColorControlColorCapabilities>(),               //
+        make_unique<ReadColorControlColorTempPhysicalMin>(),              //
+        make_unique<ReportColorControlColorTempPhysicalMin>(),            //
+        make_unique<ReadColorControlColorTempPhysicalMax>(),              //
+        make_unique<ReportColorControlColorTempPhysicalMax>(),            //
+        make_unique<ReadColorControlCoupleColorTempToLevelMinMireds>(),   //
+        make_unique<ReportColorControlCoupleColorTempToLevelMinMireds>(), //
+        make_unique<ReadColorControlStartUpColorTemperatureMireds>(),     //
+        make_unique<WriteColorControlStartUpColorTemperatureMireds>(),    //
+        make_unique<ReportColorControlStartUpColorTemperatureMireds>(),   //
+        make_unique<ReadColorControlClusterRevision>(),                   //
+        make_unique<ReportColorControlClusterRevision>(),                 //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30294,6 +51653,7 @@ void registerClusterContentLauncher(Commands & commands)
         make_unique<ReadContentLauncherAcceptsHeaderList>(),       //
         make_unique<ReadContentLauncherSupportedStreamingTypes>(), //
         make_unique<ReadContentLauncherClusterRevision>(),         //
+        make_unique<ReportContentLauncherClusterRevision>(),       //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30303,11 +51663,12 @@ void registerClusterDescriptor(Commands & commands)
     const char * clusterName = "Descriptor";
 
     commands_list clusterCommands = {
-        make_unique<ReadDescriptorDeviceList>(),      //
-        make_unique<ReadDescriptorServerList>(),      //
-        make_unique<ReadDescriptorClientList>(),      //
-        make_unique<ReadDescriptorPartsList>(),       //
-        make_unique<ReadDescriptorClusterRevision>(), //
+        make_unique<ReadDescriptorDeviceList>(),        //
+        make_unique<ReadDescriptorServerList>(),        //
+        make_unique<ReadDescriptorClientList>(),        //
+        make_unique<ReadDescriptorPartsList>(),         //
+        make_unique<ReadDescriptorClusterRevision>(),   //
+        make_unique<ReportDescriptorClusterRevision>(), //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30327,34 +51688,37 @@ void registerClusterDoorLock(Commands & commands)
     const char * clusterName = "DoorLock";
 
     commands_list clusterCommands = {
-        make_unique<DoorLockClearAllPins>(),         //
-        make_unique<DoorLockClearAllRfids>(),        //
-        make_unique<DoorLockClearHolidaySchedule>(), //
-        make_unique<DoorLockClearPin>(),             //
-        make_unique<DoorLockClearRfid>(),            //
-        make_unique<DoorLockClearWeekdaySchedule>(), //
-        make_unique<DoorLockClearYeardaySchedule>(), //
-        make_unique<DoorLockGetHolidaySchedule>(),   //
-        make_unique<DoorLockGetLogRecord>(),         //
-        make_unique<DoorLockGetPin>(),               //
-        make_unique<DoorLockGetRfid>(),              //
-        make_unique<DoorLockGetUserType>(),          //
-        make_unique<DoorLockGetWeekdaySchedule>(),   //
-        make_unique<DoorLockGetYeardaySchedule>(),   //
-        make_unique<DoorLockLockDoor>(),             //
-        make_unique<DoorLockSetHolidaySchedule>(),   //
-        make_unique<DoorLockSetPin>(),               //
-        make_unique<DoorLockSetRfid>(),              //
-        make_unique<DoorLockSetUserType>(),          //
-        make_unique<DoorLockSetWeekdaySchedule>(),   //
-        make_unique<DoorLockSetYeardaySchedule>(),   //
-        make_unique<DoorLockUnlockDoor>(),           //
-        make_unique<DoorLockUnlockWithTimeout>(),    //
-        make_unique<ReadDoorLockLockState>(),        //
-        make_unique<ReportDoorLockLockState>(),      //
-        make_unique<ReadDoorLockLockType>(),         //
-        make_unique<ReadDoorLockActuatorEnabled>(),  //
-        make_unique<ReadDoorLockClusterRevision>(),  //
+        make_unique<DoorLockClearAllPins>(),          //
+        make_unique<DoorLockClearAllRfids>(),         //
+        make_unique<DoorLockClearHolidaySchedule>(),  //
+        make_unique<DoorLockClearPin>(),              //
+        make_unique<DoorLockClearRfid>(),             //
+        make_unique<DoorLockClearWeekdaySchedule>(),  //
+        make_unique<DoorLockClearYeardaySchedule>(),  //
+        make_unique<DoorLockGetHolidaySchedule>(),    //
+        make_unique<DoorLockGetLogRecord>(),          //
+        make_unique<DoorLockGetPin>(),                //
+        make_unique<DoorLockGetRfid>(),               //
+        make_unique<DoorLockGetUserType>(),           //
+        make_unique<DoorLockGetWeekdaySchedule>(),    //
+        make_unique<DoorLockGetYeardaySchedule>(),    //
+        make_unique<DoorLockLockDoor>(),              //
+        make_unique<DoorLockSetHolidaySchedule>(),    //
+        make_unique<DoorLockSetPin>(),                //
+        make_unique<DoorLockSetRfid>(),               //
+        make_unique<DoorLockSetUserType>(),           //
+        make_unique<DoorLockSetWeekdaySchedule>(),    //
+        make_unique<DoorLockSetYeardaySchedule>(),    //
+        make_unique<DoorLockUnlockDoor>(),            //
+        make_unique<DoorLockUnlockWithTimeout>(),     //
+        make_unique<ReadDoorLockLockState>(),         //
+        make_unique<ReportDoorLockLockState>(),       //
+        make_unique<ReadDoorLockLockType>(),          //
+        make_unique<ReportDoorLockLockType>(),        //
+        make_unique<ReadDoorLockActuatorEnabled>(),   //
+        make_unique<ReportDoorLockActuatorEnabled>(), //
+        make_unique<ReadDoorLockClusterRevision>(),   //
+        make_unique<ReportDoorLockClusterRevision>(), //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30364,18 +51728,30 @@ void registerClusterElectricalMeasurement(Commands & commands)
     const char * clusterName = "ElectricalMeasurement";
 
     commands_list clusterCommands = {
-        make_unique<ReadElectricalMeasurementMeasurementType>(),  //
-        make_unique<ReadElectricalMeasurementTotalActivePower>(), //
-        make_unique<ReadElectricalMeasurementRmsVoltage>(),       //
-        make_unique<ReadElectricalMeasurementRmsVoltageMin>(),    //
-        make_unique<ReadElectricalMeasurementRmsVoltageMax>(),    //
-        make_unique<ReadElectricalMeasurementRmsCurrent>(),       //
-        make_unique<ReadElectricalMeasurementRmsCurrentMin>(),    //
-        make_unique<ReadElectricalMeasurementRmsCurrentMax>(),    //
-        make_unique<ReadElectricalMeasurementActivePower>(),      //
-        make_unique<ReadElectricalMeasurementActivePowerMin>(),   //
-        make_unique<ReadElectricalMeasurementActivePowerMax>(),   //
-        make_unique<ReadElectricalMeasurementClusterRevision>(),  //
+        make_unique<ReadElectricalMeasurementMeasurementType>(),    //
+        make_unique<ReportElectricalMeasurementMeasurementType>(),  //
+        make_unique<ReadElectricalMeasurementTotalActivePower>(),   //
+        make_unique<ReportElectricalMeasurementTotalActivePower>(), //
+        make_unique<ReadElectricalMeasurementRmsVoltage>(),         //
+        make_unique<ReportElectricalMeasurementRmsVoltage>(),       //
+        make_unique<ReadElectricalMeasurementRmsVoltageMin>(),      //
+        make_unique<ReportElectricalMeasurementRmsVoltageMin>(),    //
+        make_unique<ReadElectricalMeasurementRmsVoltageMax>(),      //
+        make_unique<ReportElectricalMeasurementRmsVoltageMax>(),    //
+        make_unique<ReadElectricalMeasurementRmsCurrent>(),         //
+        make_unique<ReportElectricalMeasurementRmsCurrent>(),       //
+        make_unique<ReadElectricalMeasurementRmsCurrentMin>(),      //
+        make_unique<ReportElectricalMeasurementRmsCurrentMin>(),    //
+        make_unique<ReadElectricalMeasurementRmsCurrentMax>(),      //
+        make_unique<ReportElectricalMeasurementRmsCurrentMax>(),    //
+        make_unique<ReadElectricalMeasurementActivePower>(),        //
+        make_unique<ReportElectricalMeasurementActivePower>(),      //
+        make_unique<ReadElectricalMeasurementActivePowerMin>(),     //
+        make_unique<ReportElectricalMeasurementActivePowerMin>(),   //
+        make_unique<ReadElectricalMeasurementActivePowerMax>(),     //
+        make_unique<ReportElectricalMeasurementActivePowerMax>(),   //
+        make_unique<ReadElectricalMeasurementClusterRevision>(),    //
+        make_unique<ReportElectricalMeasurementClusterRevision>(),  //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30385,17 +51761,27 @@ void registerClusterEthernetNetworkDiagnostics(Commands & commands)
     const char * clusterName = "EthernetNetworkDiagnostics";
 
     commands_list clusterCommands = {
-        make_unique<EthernetNetworkDiagnosticsResetCounts>(),         //
-        make_unique<ReadEthernetNetworkDiagnosticsPHYRate>(),         //
-        make_unique<ReadEthernetNetworkDiagnosticsFullDuplex>(),      //
-        make_unique<ReadEthernetNetworkDiagnosticsPacketRxCount>(),   //
-        make_unique<ReadEthernetNetworkDiagnosticsPacketTxCount>(),   //
-        make_unique<ReadEthernetNetworkDiagnosticsTxErrCount>(),      //
-        make_unique<ReadEthernetNetworkDiagnosticsCollisionCount>(),  //
-        make_unique<ReadEthernetNetworkDiagnosticsOverrunCount>(),    //
-        make_unique<ReadEthernetNetworkDiagnosticsCarrierDetect>(),   //
-        make_unique<ReadEthernetNetworkDiagnosticsTimeSinceReset>(),  //
-        make_unique<ReadEthernetNetworkDiagnosticsClusterRevision>(), //
+        make_unique<EthernetNetworkDiagnosticsResetCounts>(),           //
+        make_unique<ReadEthernetNetworkDiagnosticsPHYRate>(),           //
+        make_unique<ReportEthernetNetworkDiagnosticsPHYRate>(),         //
+        make_unique<ReadEthernetNetworkDiagnosticsFullDuplex>(),        //
+        make_unique<ReportEthernetNetworkDiagnosticsFullDuplex>(),      //
+        make_unique<ReadEthernetNetworkDiagnosticsPacketRxCount>(),     //
+        make_unique<ReportEthernetNetworkDiagnosticsPacketRxCount>(),   //
+        make_unique<ReadEthernetNetworkDiagnosticsPacketTxCount>(),     //
+        make_unique<ReportEthernetNetworkDiagnosticsPacketTxCount>(),   //
+        make_unique<ReadEthernetNetworkDiagnosticsTxErrCount>(),        //
+        make_unique<ReportEthernetNetworkDiagnosticsTxErrCount>(),      //
+        make_unique<ReadEthernetNetworkDiagnosticsCollisionCount>(),    //
+        make_unique<ReportEthernetNetworkDiagnosticsCollisionCount>(),  //
+        make_unique<ReadEthernetNetworkDiagnosticsOverrunCount>(),      //
+        make_unique<ReportEthernetNetworkDiagnosticsOverrunCount>(),    //
+        make_unique<ReadEthernetNetworkDiagnosticsCarrierDetect>(),     //
+        make_unique<ReportEthernetNetworkDiagnosticsCarrierDetect>(),   //
+        make_unique<ReadEthernetNetworkDiagnosticsTimeSinceReset>(),    //
+        make_unique<ReportEthernetNetworkDiagnosticsTimeSinceReset>(),  //
+        make_unique<ReadEthernetNetworkDiagnosticsClusterRevision>(),   //
+        make_unique<ReportEthernetNetworkDiagnosticsClusterRevision>(), //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30405,8 +51791,9 @@ void registerClusterFixedLabel(Commands & commands)
     const char * clusterName = "FixedLabel";
 
     commands_list clusterCommands = {
-        make_unique<ReadFixedLabelLabelList>(),       //
-        make_unique<ReadFixedLabelClusterRevision>(), //
+        make_unique<ReadFixedLabelLabelList>(),         //
+        make_unique<ReadFixedLabelClusterRevision>(),   //
+        make_unique<ReportFixedLabelClusterRevision>(), //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30416,11 +51803,16 @@ void registerClusterFlowMeasurement(Commands & commands)
     const char * clusterName = "FlowMeasurement";
 
     commands_list clusterCommands = {
-        make_unique<ReadFlowMeasurementMeasuredValue>(),    //
-        make_unique<ReadFlowMeasurementMinMeasuredValue>(), //
-        make_unique<ReadFlowMeasurementMaxMeasuredValue>(), //
-        make_unique<ReadFlowMeasurementTolerance>(),        //
-        make_unique<ReadFlowMeasurementClusterRevision>(),  //
+        make_unique<ReadFlowMeasurementMeasuredValue>(),      //
+        make_unique<ReportFlowMeasurementMeasuredValue>(),    //
+        make_unique<ReadFlowMeasurementMinMeasuredValue>(),   //
+        make_unique<ReportFlowMeasurementMinMeasuredValue>(), //
+        make_unique<ReadFlowMeasurementMaxMeasuredValue>(),   //
+        make_unique<ReportFlowMeasurementMaxMeasuredValue>(), //
+        make_unique<ReadFlowMeasurementTolerance>(),          //
+        make_unique<ReportFlowMeasurementTolerance>(),        //
+        make_unique<ReadFlowMeasurementClusterRevision>(),    //
+        make_unique<ReportFlowMeasurementClusterRevision>(),  //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30435,8 +51827,10 @@ void registerClusterGeneralCommissioning(Commands & commands)
         make_unique<GeneralCommissioningSetRegulatoryConfig>(),            //
         make_unique<ReadGeneralCommissioningBreadcrumb>(),                 //
         make_unique<WriteGeneralCommissioningBreadcrumb>(),                //
+        make_unique<ReportGeneralCommissioningBreadcrumb>(),               //
         make_unique<ReadGeneralCommissioningBasicCommissioningInfoList>(), //
         make_unique<ReadGeneralCommissioningClusterRevision>(),            //
+        make_unique<ReportGeneralCommissioningClusterRevision>(),          //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30446,15 +51840,20 @@ void registerClusterGeneralDiagnostics(Commands & commands)
     const char * clusterName = "GeneralDiagnostics";
 
     commands_list clusterCommands = {
-        make_unique<ReadGeneralDiagnosticsNetworkInterfaces>(),     //
-        make_unique<ReadGeneralDiagnosticsRebootCount>(),           //
-        make_unique<ReadGeneralDiagnosticsUpTime>(),                //
-        make_unique<ReadGeneralDiagnosticsTotalOperationalHours>(), //
-        make_unique<ReadGeneralDiagnosticsBootReasons>(),           //
-        make_unique<ReadGeneralDiagnosticsActiveHardwareFaults>(),  //
-        make_unique<ReadGeneralDiagnosticsActiveRadioFaults>(),     //
-        make_unique<ReadGeneralDiagnosticsActiveNetworkFaults>(),   //
-        make_unique<ReadGeneralDiagnosticsClusterRevision>(),       //
+        make_unique<ReadGeneralDiagnosticsNetworkInterfaces>(),       //
+        make_unique<ReadGeneralDiagnosticsRebootCount>(),             //
+        make_unique<ReportGeneralDiagnosticsRebootCount>(),           //
+        make_unique<ReadGeneralDiagnosticsUpTime>(),                  //
+        make_unique<ReportGeneralDiagnosticsUpTime>(),                //
+        make_unique<ReadGeneralDiagnosticsTotalOperationalHours>(),   //
+        make_unique<ReportGeneralDiagnosticsTotalOperationalHours>(), //
+        make_unique<ReadGeneralDiagnosticsBootReasons>(),             //
+        make_unique<ReportGeneralDiagnosticsBootReasons>(),           //
+        make_unique<ReadGeneralDiagnosticsActiveHardwareFaults>(),    //
+        make_unique<ReadGeneralDiagnosticsActiveRadioFaults>(),       //
+        make_unique<ReadGeneralDiagnosticsActiveNetworkFaults>(),     //
+        make_unique<ReadGeneralDiagnosticsClusterRevision>(),         //
+        make_unique<ReportGeneralDiagnosticsClusterRevision>(),       //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30464,9 +51863,10 @@ void registerClusterGroupKeyManagement(Commands & commands)
     const char * clusterName = "GroupKeyManagement";
 
     commands_list clusterCommands = {
-        make_unique<ReadGroupKeyManagementGroups>(),          //
-        make_unique<ReadGroupKeyManagementGroupKeys>(),       //
-        make_unique<ReadGroupKeyManagementClusterRevision>(), //
+        make_unique<ReadGroupKeyManagementGroups>(),            //
+        make_unique<ReadGroupKeyManagementGroupKeys>(),         //
+        make_unique<ReadGroupKeyManagementClusterRevision>(),   //
+        make_unique<ReportGroupKeyManagementClusterRevision>(), //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30483,7 +51883,9 @@ void registerClusterGroups(Commands & commands)
         make_unique<GroupsRemoveGroup>(),           //
         make_unique<GroupsViewGroup>(),             //
         make_unique<ReadGroupsNameSupport>(),       //
+        make_unique<ReportGroupsNameSupport>(),     //
         make_unique<ReadGroupsClusterRevision>(),   //
+        make_unique<ReportGroupsClusterRevision>(), //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30493,13 +51895,16 @@ void registerClusterIdentify(Commands & commands)
     const char * clusterName = "Identify";
 
     commands_list clusterCommands = {
-        make_unique<IdentifyIdentify>(),            //
-        make_unique<IdentifyIdentifyQuery>(),       //
-        make_unique<IdentifyTriggerEffect>(),       //
-        make_unique<ReadIdentifyIdentifyTime>(),    //
-        make_unique<WriteIdentifyIdentifyTime>(),   //
-        make_unique<ReadIdentifyIdentifyType>(),    //
-        make_unique<ReadIdentifyClusterRevision>(), //
+        make_unique<IdentifyIdentify>(),              //
+        make_unique<IdentifyIdentifyQuery>(),         //
+        make_unique<IdentifyTriggerEffect>(),         //
+        make_unique<ReadIdentifyIdentifyTime>(),      //
+        make_unique<WriteIdentifyIdentifyTime>(),     //
+        make_unique<ReportIdentifyIdentifyTime>(),    //
+        make_unique<ReadIdentifyIdentifyType>(),      //
+        make_unique<ReportIdentifyIdentifyType>(),    //
+        make_unique<ReadIdentifyClusterRevision>(),   //
+        make_unique<ReportIdentifyClusterRevision>(), //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30509,13 +51914,18 @@ void registerClusterIlluminanceMeasurement(Commands & commands)
     const char * clusterName = "IlluminanceMeasurement";
 
     commands_list clusterCommands = {
-        make_unique<ReadIlluminanceMeasurementMeasuredValue>(),    //
-        make_unique<ReportIlluminanceMeasurementMeasuredValue>(),  //
-        make_unique<ReadIlluminanceMeasurementMinMeasuredValue>(), //
-        make_unique<ReadIlluminanceMeasurementMaxMeasuredValue>(), //
-        make_unique<ReadIlluminanceMeasurementTolerance>(),        //
-        make_unique<ReadIlluminanceMeasurementLightSensorType>(),  //
-        make_unique<ReadIlluminanceMeasurementClusterRevision>(),  //
+        make_unique<ReadIlluminanceMeasurementMeasuredValue>(),      //
+        make_unique<ReportIlluminanceMeasurementMeasuredValue>(),    //
+        make_unique<ReadIlluminanceMeasurementMinMeasuredValue>(),   //
+        make_unique<ReportIlluminanceMeasurementMinMeasuredValue>(), //
+        make_unique<ReadIlluminanceMeasurementMaxMeasuredValue>(),   //
+        make_unique<ReportIlluminanceMeasurementMaxMeasuredValue>(), //
+        make_unique<ReadIlluminanceMeasurementTolerance>(),          //
+        make_unique<ReportIlluminanceMeasurementTolerance>(),        //
+        make_unique<ReadIlluminanceMeasurementLightSensorType>(),    //
+        make_unique<ReportIlluminanceMeasurementLightSensorType>(),  //
+        make_unique<ReadIlluminanceMeasurementClusterRevision>(),    //
+        make_unique<ReportIlluminanceMeasurementClusterRevision>(),  //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30525,8 +51935,9 @@ void registerClusterKeypadInput(Commands & commands)
     const char * clusterName = "KeypadInput";
 
     commands_list clusterCommands = {
-        make_unique<KeypadInputSendKey>(),             //
-        make_unique<ReadKeypadInputClusterRevision>(), //
+        make_unique<KeypadInputSendKey>(),               //
+        make_unique<ReadKeypadInputClusterRevision>(),   //
+        make_unique<ReportKeypadInputClusterRevision>(), //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30536,37 +51947,51 @@ void registerClusterLevelControl(Commands & commands)
     const char * clusterName = "LevelControl";
 
     commands_list clusterCommands = {
-        make_unique<LevelControlMove>(),                     //
-        make_unique<LevelControlMoveToLevel>(),              //
-        make_unique<LevelControlMoveToLevelWithOnOff>(),     //
-        make_unique<LevelControlMoveWithOnOff>(),            //
-        make_unique<LevelControlStep>(),                     //
-        make_unique<LevelControlStepWithOnOff>(),            //
-        make_unique<LevelControlStop>(),                     //
-        make_unique<LevelControlStopWithOnOff>(),            //
-        make_unique<ReadLevelControlCurrentLevel>(),         //
-        make_unique<ReportLevelControlCurrentLevel>(),       //
-        make_unique<ReadLevelControlRemainingTime>(),        //
-        make_unique<ReadLevelControlMinLevel>(),             //
-        make_unique<ReadLevelControlMaxLevel>(),             //
-        make_unique<ReadLevelControlCurrentFrequency>(),     //
-        make_unique<ReadLevelControlMinFrequency>(),         //
-        make_unique<ReadLevelControlMaxFrequency>(),         //
-        make_unique<ReadLevelControlOptions>(),              //
-        make_unique<WriteLevelControlOptions>(),             //
-        make_unique<ReadLevelControlOnOffTransitionTime>(),  //
-        make_unique<WriteLevelControlOnOffTransitionTime>(), //
-        make_unique<ReadLevelControlOnLevel>(),              //
-        make_unique<WriteLevelControlOnLevel>(),             //
-        make_unique<ReadLevelControlOnTransitionTime>(),     //
-        make_unique<WriteLevelControlOnTransitionTime>(),    //
-        make_unique<ReadLevelControlOffTransitionTime>(),    //
-        make_unique<WriteLevelControlOffTransitionTime>(),   //
-        make_unique<ReadLevelControlDefaultMoveRate>(),      //
-        make_unique<WriteLevelControlDefaultMoveRate>(),     //
-        make_unique<ReadLevelControlStartUpCurrentLevel>(),  //
-        make_unique<WriteLevelControlStartUpCurrentLevel>(), //
-        make_unique<ReadLevelControlClusterRevision>(),      //
+        make_unique<LevelControlMove>(),                      //
+        make_unique<LevelControlMoveToLevel>(),               //
+        make_unique<LevelControlMoveToLevelWithOnOff>(),      //
+        make_unique<LevelControlMoveWithOnOff>(),             //
+        make_unique<LevelControlStep>(),                      //
+        make_unique<LevelControlStepWithOnOff>(),             //
+        make_unique<LevelControlStop>(),                      //
+        make_unique<LevelControlStopWithOnOff>(),             //
+        make_unique<ReadLevelControlCurrentLevel>(),          //
+        make_unique<ReportLevelControlCurrentLevel>(),        //
+        make_unique<ReadLevelControlRemainingTime>(),         //
+        make_unique<ReportLevelControlRemainingTime>(),       //
+        make_unique<ReadLevelControlMinLevel>(),              //
+        make_unique<ReportLevelControlMinLevel>(),            //
+        make_unique<ReadLevelControlMaxLevel>(),              //
+        make_unique<ReportLevelControlMaxLevel>(),            //
+        make_unique<ReadLevelControlCurrentFrequency>(),      //
+        make_unique<ReportLevelControlCurrentFrequency>(),    //
+        make_unique<ReadLevelControlMinFrequency>(),          //
+        make_unique<ReportLevelControlMinFrequency>(),        //
+        make_unique<ReadLevelControlMaxFrequency>(),          //
+        make_unique<ReportLevelControlMaxFrequency>(),        //
+        make_unique<ReadLevelControlOptions>(),               //
+        make_unique<WriteLevelControlOptions>(),              //
+        make_unique<ReportLevelControlOptions>(),             //
+        make_unique<ReadLevelControlOnOffTransitionTime>(),   //
+        make_unique<WriteLevelControlOnOffTransitionTime>(),  //
+        make_unique<ReportLevelControlOnOffTransitionTime>(), //
+        make_unique<ReadLevelControlOnLevel>(),               //
+        make_unique<WriteLevelControlOnLevel>(),              //
+        make_unique<ReportLevelControlOnLevel>(),             //
+        make_unique<ReadLevelControlOnTransitionTime>(),      //
+        make_unique<WriteLevelControlOnTransitionTime>(),     //
+        make_unique<ReportLevelControlOnTransitionTime>(),    //
+        make_unique<ReadLevelControlOffTransitionTime>(),     //
+        make_unique<WriteLevelControlOffTransitionTime>(),    //
+        make_unique<ReportLevelControlOffTransitionTime>(),   //
+        make_unique<ReadLevelControlDefaultMoveRate>(),       //
+        make_unique<WriteLevelControlDefaultMoveRate>(),      //
+        make_unique<ReportLevelControlDefaultMoveRate>(),     //
+        make_unique<ReadLevelControlStartUpCurrentLevel>(),   //
+        make_unique<WriteLevelControlStartUpCurrentLevel>(),  //
+        make_unique<ReportLevelControlStartUpCurrentLevel>(), //
+        make_unique<ReadLevelControlClusterRevision>(),       //
+        make_unique<ReportLevelControlClusterRevision>(),     //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30576,8 +52001,9 @@ void registerClusterLowPower(Commands & commands)
     const char * clusterName = "LowPower";
 
     commands_list clusterCommands = {
-        make_unique<LowPowerSleep>(),               //
-        make_unique<ReadLowPowerClusterRevision>(), //
+        make_unique<LowPowerSleep>(),                 //
+        make_unique<ReadLowPowerClusterRevision>(),   //
+        make_unique<ReportLowPowerClusterRevision>(), //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30587,13 +52013,15 @@ void registerClusterMediaInput(Commands & commands)
     const char * clusterName = "MediaInput";
 
     commands_list clusterCommands = {
-        make_unique<MediaInputHideInputStatus>(),       //
-        make_unique<MediaInputRenameInput>(),           //
-        make_unique<MediaInputSelectInput>(),           //
-        make_unique<MediaInputShowInputStatus>(),       //
-        make_unique<ReadMediaInputMediaInputList>(),    //
-        make_unique<ReadMediaInputCurrentMediaInput>(), //
-        make_unique<ReadMediaInputClusterRevision>(),   //
+        make_unique<MediaInputHideInputStatus>(),         //
+        make_unique<MediaInputRenameInput>(),             //
+        make_unique<MediaInputSelectInput>(),             //
+        make_unique<MediaInputShowInputStatus>(),         //
+        make_unique<ReadMediaInputMediaInputList>(),      //
+        make_unique<ReadMediaInputCurrentMediaInput>(),   //
+        make_unique<ReportMediaInputCurrentMediaInput>(), //
+        make_unique<ReadMediaInputClusterRevision>(),     //
+        make_unique<ReportMediaInputClusterRevision>(),   //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30603,26 +52031,35 @@ void registerClusterMediaPlayback(Commands & commands)
     const char * clusterName = "MediaPlayback";
 
     commands_list clusterCommands = {
-        make_unique<MediaPlaybackMediaFastForward>(),      //
-        make_unique<MediaPlaybackMediaNext>(),             //
-        make_unique<MediaPlaybackMediaPause>(),            //
-        make_unique<MediaPlaybackMediaPlay>(),             //
-        make_unique<MediaPlaybackMediaPrevious>(),         //
-        make_unique<MediaPlaybackMediaRewind>(),           //
-        make_unique<MediaPlaybackMediaSeek>(),             //
-        make_unique<MediaPlaybackMediaSkipBackward>(),     //
-        make_unique<MediaPlaybackMediaSkipForward>(),      //
-        make_unique<MediaPlaybackMediaStartOver>(),        //
-        make_unique<MediaPlaybackMediaStop>(),             //
-        make_unique<ReadMediaPlaybackPlaybackState>(),     //
-        make_unique<ReadMediaPlaybackStartTime>(),         //
-        make_unique<ReadMediaPlaybackDuration>(),          //
-        make_unique<ReadMediaPlaybackPositionUpdatedAt>(), //
-        make_unique<ReadMediaPlaybackPosition>(),          //
-        make_unique<ReadMediaPlaybackPlaybackSpeed>(),     //
-        make_unique<ReadMediaPlaybackSeekRangeEnd>(),      //
-        make_unique<ReadMediaPlaybackSeekRangeStart>(),    //
-        make_unique<ReadMediaPlaybackClusterRevision>(),   //
+        make_unique<MediaPlaybackMediaFastForward>(),        //
+        make_unique<MediaPlaybackMediaNext>(),               //
+        make_unique<MediaPlaybackMediaPause>(),              //
+        make_unique<MediaPlaybackMediaPlay>(),               //
+        make_unique<MediaPlaybackMediaPrevious>(),           //
+        make_unique<MediaPlaybackMediaRewind>(),             //
+        make_unique<MediaPlaybackMediaSeek>(),               //
+        make_unique<MediaPlaybackMediaSkipBackward>(),       //
+        make_unique<MediaPlaybackMediaSkipForward>(),        //
+        make_unique<MediaPlaybackMediaStartOver>(),          //
+        make_unique<MediaPlaybackMediaStop>(),               //
+        make_unique<ReadMediaPlaybackPlaybackState>(),       //
+        make_unique<ReportMediaPlaybackPlaybackState>(),     //
+        make_unique<ReadMediaPlaybackStartTime>(),           //
+        make_unique<ReportMediaPlaybackStartTime>(),         //
+        make_unique<ReadMediaPlaybackDuration>(),            //
+        make_unique<ReportMediaPlaybackDuration>(),          //
+        make_unique<ReadMediaPlaybackPositionUpdatedAt>(),   //
+        make_unique<ReportMediaPlaybackPositionUpdatedAt>(), //
+        make_unique<ReadMediaPlaybackPosition>(),            //
+        make_unique<ReportMediaPlaybackPosition>(),          //
+        make_unique<ReadMediaPlaybackPlaybackSpeed>(),       //
+        make_unique<ReportMediaPlaybackPlaybackSpeed>(),     //
+        make_unique<ReadMediaPlaybackSeekRangeEnd>(),        //
+        make_unique<ReportMediaPlaybackSeekRangeEnd>(),      //
+        make_unique<ReadMediaPlaybackSeekRangeStart>(),      //
+        make_unique<ReportMediaPlaybackSeekRangeStart>(),    //
+        make_unique<ReadMediaPlaybackClusterRevision>(),     //
+        make_unique<ReportMediaPlaybackClusterRevision>(),   //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30632,15 +52069,19 @@ void registerClusterModeSelect(Commands & commands)
     const char * clusterName = "ModeSelect";
 
     commands_list clusterCommands = {
-        make_unique<ModeSelectChangeToMode>(),        //
-        make_unique<ReadModeSelectCurrentMode>(),     //
-        make_unique<ReportModeSelectCurrentMode>(),   //
-        make_unique<ReadModeSelectSupportedModes>(),  //
-        make_unique<ReadModeSelectOnMode>(),          //
-        make_unique<WriteModeSelectOnMode>(),         //
-        make_unique<ReadModeSelectStartUpMode>(),     //
-        make_unique<ReadModeSelectDescription>(),     //
-        make_unique<ReadModeSelectClusterRevision>(), //
+        make_unique<ModeSelectChangeToMode>(),          //
+        make_unique<ReadModeSelectCurrentMode>(),       //
+        make_unique<ReportModeSelectCurrentMode>(),     //
+        make_unique<ReadModeSelectSupportedModes>(),    //
+        make_unique<ReadModeSelectOnMode>(),            //
+        make_unique<WriteModeSelectOnMode>(),           //
+        make_unique<ReportModeSelectOnMode>(),          //
+        make_unique<ReadModeSelectStartUpMode>(),       //
+        make_unique<ReportModeSelectStartUpMode>(),     //
+        make_unique<ReadModeSelectDescription>(),       //
+        make_unique<ReportModeSelectDescription>(),     //
+        make_unique<ReadModeSelectClusterRevision>(),   //
+        make_unique<ReportModeSelectClusterRevision>(), //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30650,16 +52091,18 @@ void registerClusterNetworkCommissioning(Commands & commands)
     const char * clusterName = "NetworkCommissioning";
 
     commands_list clusterCommands = {
-        make_unique<NetworkCommissioningAddThreadNetwork>(),    //
-        make_unique<NetworkCommissioningAddWiFiNetwork>(),      //
-        make_unique<NetworkCommissioningDisableNetwork>(),      //
-        make_unique<NetworkCommissioningEnableNetwork>(),       //
-        make_unique<NetworkCommissioningRemoveNetwork>(),       //
-        make_unique<NetworkCommissioningScanNetworks>(),        //
-        make_unique<NetworkCommissioningUpdateThreadNetwork>(), //
-        make_unique<NetworkCommissioningUpdateWiFiNetwork>(),   //
-        make_unique<ReadNetworkCommissioningFeatureMap>(),      //
-        make_unique<ReadNetworkCommissioningClusterRevision>(), //
+        make_unique<NetworkCommissioningAddThreadNetwork>(),      //
+        make_unique<NetworkCommissioningAddWiFiNetwork>(),        //
+        make_unique<NetworkCommissioningDisableNetwork>(),        //
+        make_unique<NetworkCommissioningEnableNetwork>(),         //
+        make_unique<NetworkCommissioningRemoveNetwork>(),         //
+        make_unique<NetworkCommissioningScanNetworks>(),          //
+        make_unique<NetworkCommissioningUpdateThreadNetwork>(),   //
+        make_unique<NetworkCommissioningUpdateWiFiNetwork>(),     //
+        make_unique<ReadNetworkCommissioningFeatureMap>(),        //
+        make_unique<ReportNetworkCommissioningFeatureMap>(),      //
+        make_unique<ReadNetworkCommissioningClusterRevision>(),   //
+        make_unique<ReportNetworkCommissioningClusterRevision>(), //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30669,10 +52112,11 @@ void registerClusterOtaSoftwareUpdateProvider(Commands & commands)
     const char * clusterName = "OtaSoftwareUpdateProvider";
 
     commands_list clusterCommands = {
-        make_unique<OtaSoftwareUpdateProviderApplyUpdateRequest>(),  //
-        make_unique<OtaSoftwareUpdateProviderNotifyUpdateApplied>(), //
-        make_unique<OtaSoftwareUpdateProviderQueryImage>(),          //
-        make_unique<ReadOtaSoftwareUpdateProviderClusterRevision>(), //
+        make_unique<OtaSoftwareUpdateProviderApplyUpdateRequest>(),    //
+        make_unique<OtaSoftwareUpdateProviderNotifyUpdateApplied>(),   //
+        make_unique<OtaSoftwareUpdateProviderQueryImage>(),            //
+        make_unique<ReadOtaSoftwareUpdateProviderClusterRevision>(),   //
+        make_unique<ReportOtaSoftwareUpdateProviderClusterRevision>(), //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30682,11 +52126,14 @@ void registerClusterOtaSoftwareUpdateRequestor(Commands & commands)
     const char * clusterName = "OtaSoftwareUpdateRequestor";
 
     commands_list clusterCommands = {
-        make_unique<OtaSoftwareUpdateRequestorAnnounceOtaProvider>(),     //
-        make_unique<ReadOtaSoftwareUpdateRequestorDefaultOtaProvider>(),  //
-        make_unique<WriteOtaSoftwareUpdateRequestorDefaultOtaProvider>(), //
-        make_unique<ReadOtaSoftwareUpdateRequestorUpdatePossible>(),      //
-        make_unique<ReadOtaSoftwareUpdateRequestorClusterRevision>(),     //
+        make_unique<OtaSoftwareUpdateRequestorAnnounceOtaProvider>(),      //
+        make_unique<ReadOtaSoftwareUpdateRequestorDefaultOtaProvider>(),   //
+        make_unique<WriteOtaSoftwareUpdateRequestorDefaultOtaProvider>(),  //
+        make_unique<ReportOtaSoftwareUpdateRequestorDefaultOtaProvider>(), //
+        make_unique<ReadOtaSoftwareUpdateRequestorUpdatePossible>(),       //
+        make_unique<ReportOtaSoftwareUpdateRequestorUpdatePossible>(),     //
+        make_unique<ReadOtaSoftwareUpdateRequestorClusterRevision>(),      //
+        make_unique<ReportOtaSoftwareUpdateRequestorClusterRevision>(),    //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30696,11 +52143,14 @@ void registerClusterOccupancySensing(Commands & commands)
     const char * clusterName = "OccupancySensing";
 
     commands_list clusterCommands = {
-        make_unique<ReadOccupancySensingOccupancy>(),                 //
-        make_unique<ReportOccupancySensingOccupancy>(),               //
-        make_unique<ReadOccupancySensingOccupancySensorType>(),       //
-        make_unique<ReadOccupancySensingOccupancySensorTypeBitmap>(), //
-        make_unique<ReadOccupancySensingClusterRevision>(),           //
+        make_unique<ReadOccupancySensingOccupancy>(),                   //
+        make_unique<ReportOccupancySensingOccupancy>(),                 //
+        make_unique<ReadOccupancySensingOccupancySensorType>(),         //
+        make_unique<ReportOccupancySensingOccupancySensorType>(),       //
+        make_unique<ReadOccupancySensingOccupancySensorTypeBitmap>(),   //
+        make_unique<ReportOccupancySensingOccupancySensorTypeBitmap>(), //
+        make_unique<ReadOccupancySensingClusterRevision>(),             //
+        make_unique<ReportOccupancySensingClusterRevision>(),           //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30710,23 +52160,29 @@ void registerClusterOnOff(Commands & commands)
     const char * clusterName = "OnOff";
 
     commands_list clusterCommands = {
-        make_unique<OnOffOff>(),                     //
-        make_unique<OnOffOffWithEffect>(),           //
-        make_unique<OnOffOn>(),                      //
-        make_unique<OnOffOnWithRecallGlobalScene>(), //
-        make_unique<OnOffOnWithTimedOff>(),          //
-        make_unique<OnOffToggle>(),                  //
-        make_unique<ReadOnOffOnOff>(),               //
-        make_unique<ReportOnOffOnOff>(),             //
-        make_unique<ReadOnOffGlobalSceneControl>(),  //
-        make_unique<ReadOnOffOnTime>(),              //
-        make_unique<WriteOnOffOnTime>(),             //
-        make_unique<ReadOnOffOffWaitTime>(),         //
-        make_unique<WriteOnOffOffWaitTime>(),        //
-        make_unique<ReadOnOffStartUpOnOff>(),        //
-        make_unique<WriteOnOffStartUpOnOff>(),       //
-        make_unique<ReadOnOffFeatureMap>(),          //
-        make_unique<ReadOnOffClusterRevision>(),     //
+        make_unique<OnOffOff>(),                      //
+        make_unique<OnOffOffWithEffect>(),            //
+        make_unique<OnOffOn>(),                       //
+        make_unique<OnOffOnWithRecallGlobalScene>(),  //
+        make_unique<OnOffOnWithTimedOff>(),           //
+        make_unique<OnOffToggle>(),                   //
+        make_unique<ReadOnOffOnOff>(),                //
+        make_unique<ReportOnOffOnOff>(),              //
+        make_unique<ReadOnOffGlobalSceneControl>(),   //
+        make_unique<ReportOnOffGlobalSceneControl>(), //
+        make_unique<ReadOnOffOnTime>(),               //
+        make_unique<WriteOnOffOnTime>(),              //
+        make_unique<ReportOnOffOnTime>(),             //
+        make_unique<ReadOnOffOffWaitTime>(),          //
+        make_unique<WriteOnOffOffWaitTime>(),         //
+        make_unique<ReportOnOffOffWaitTime>(),        //
+        make_unique<ReadOnOffStartUpOnOff>(),         //
+        make_unique<WriteOnOffStartUpOnOff>(),        //
+        make_unique<ReportOnOffStartUpOnOff>(),       //
+        make_unique<ReadOnOffFeatureMap>(),           //
+        make_unique<ReportOnOffFeatureMap>(),         //
+        make_unique<ReadOnOffClusterRevision>(),      //
+        make_unique<ReportOnOffClusterRevision>(),    //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30736,10 +52192,13 @@ void registerClusterOnOffSwitchConfiguration(Commands & commands)
     const char * clusterName = "OnOffSwitchConfiguration";
 
     commands_list clusterCommands = {
-        make_unique<ReadOnOffSwitchConfigurationSwitchType>(),      //
-        make_unique<ReadOnOffSwitchConfigurationSwitchActions>(),   //
-        make_unique<WriteOnOffSwitchConfigurationSwitchActions>(),  //
-        make_unique<ReadOnOffSwitchConfigurationClusterRevision>(), //
+        make_unique<ReadOnOffSwitchConfigurationSwitchType>(),        //
+        make_unique<ReportOnOffSwitchConfigurationSwitchType>(),      //
+        make_unique<ReadOnOffSwitchConfigurationSwitchActions>(),     //
+        make_unique<WriteOnOffSwitchConfigurationSwitchActions>(),    //
+        make_unique<ReportOnOffSwitchConfigurationSwitchActions>(),   //
+        make_unique<ReadOnOffSwitchConfigurationClusterRevision>(),   //
+        make_unique<ReportOnOffSwitchConfigurationClusterRevision>(), //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30760,10 +52219,14 @@ void registerClusterOperationalCredentials(Commands & commands)
         make_unique<OperationalCredentialsUpdateNOC>(),                    //
         make_unique<ReadOperationalCredentialsFabricsList>(),              //
         make_unique<ReadOperationalCredentialsSupportedFabrics>(),         //
+        make_unique<ReportOperationalCredentialsSupportedFabrics>(),       //
         make_unique<ReadOperationalCredentialsCommissionedFabrics>(),      //
+        make_unique<ReportOperationalCredentialsCommissionedFabrics>(),    //
         make_unique<ReadOperationalCredentialsTrustedRootCertificates>(),  //
         make_unique<ReadOperationalCredentialsCurrentFabricIndex>(),       //
+        make_unique<ReportOperationalCredentialsCurrentFabricIndex>(),     //
         make_unique<ReadOperationalCredentialsClusterRevision>(),          //
+        make_unique<ReportOperationalCredentialsClusterRevision>(),        //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30773,17 +52236,27 @@ void registerClusterPowerSource(Commands & commands)
     const char * clusterName = "PowerSource";
 
     commands_list clusterCommands = {
-        make_unique<ReadPowerSourceStatus>(),                  //
-        make_unique<ReadPowerSourceOrder>(),                   //
-        make_unique<ReadPowerSourceDescription>(),             //
-        make_unique<ReadPowerSourceBatteryVoltage>(),          //
-        make_unique<ReadPowerSourceBatteryPercentRemaining>(), //
-        make_unique<ReadPowerSourceBatteryTimeRemaining>(),    //
-        make_unique<ReadPowerSourceBatteryChargeLevel>(),      //
-        make_unique<ReadPowerSourceActiveBatteryFaults>(),     //
-        make_unique<ReadPowerSourceBatteryChargeState>(),      //
-        make_unique<ReadPowerSourceFeatureMap>(),              //
-        make_unique<ReadPowerSourceClusterRevision>(),         //
+        make_unique<ReadPowerSourceStatus>(),                    //
+        make_unique<ReportPowerSourceStatus>(),                  //
+        make_unique<ReadPowerSourceOrder>(),                     //
+        make_unique<ReportPowerSourceOrder>(),                   //
+        make_unique<ReadPowerSourceDescription>(),               //
+        make_unique<ReportPowerSourceDescription>(),             //
+        make_unique<ReadPowerSourceBatteryVoltage>(),            //
+        make_unique<ReportPowerSourceBatteryVoltage>(),          //
+        make_unique<ReadPowerSourceBatteryPercentRemaining>(),   //
+        make_unique<ReportPowerSourceBatteryPercentRemaining>(), //
+        make_unique<ReadPowerSourceBatteryTimeRemaining>(),      //
+        make_unique<ReportPowerSourceBatteryTimeRemaining>(),    //
+        make_unique<ReadPowerSourceBatteryChargeLevel>(),        //
+        make_unique<ReportPowerSourceBatteryChargeLevel>(),      //
+        make_unique<ReadPowerSourceActiveBatteryFaults>(),       //
+        make_unique<ReadPowerSourceBatteryChargeState>(),        //
+        make_unique<ReportPowerSourceBatteryChargeState>(),      //
+        make_unique<ReadPowerSourceFeatureMap>(),                //
+        make_unique<ReportPowerSourceFeatureMap>(),              //
+        make_unique<ReadPowerSourceClusterRevision>(),           //
+        make_unique<ReportPowerSourceClusterRevision>(),         //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30793,11 +52266,14 @@ void registerClusterPressureMeasurement(Commands & commands)
     const char * clusterName = "PressureMeasurement";
 
     commands_list clusterCommands = {
-        make_unique<ReadPressureMeasurementMeasuredValue>(),    //
-        make_unique<ReportPressureMeasurementMeasuredValue>(),  //
-        make_unique<ReadPressureMeasurementMinMeasuredValue>(), //
-        make_unique<ReadPressureMeasurementMaxMeasuredValue>(), //
-        make_unique<ReadPressureMeasurementClusterRevision>(),  //
+        make_unique<ReadPressureMeasurementMeasuredValue>(),      //
+        make_unique<ReportPressureMeasurementMeasuredValue>(),    //
+        make_unique<ReadPressureMeasurementMinMeasuredValue>(),   //
+        make_unique<ReportPressureMeasurementMinMeasuredValue>(), //
+        make_unique<ReadPressureMeasurementMaxMeasuredValue>(),   //
+        make_unique<ReportPressureMeasurementMaxMeasuredValue>(), //
+        make_unique<ReadPressureMeasurementClusterRevision>(),    //
+        make_unique<ReportPressureMeasurementClusterRevision>(),  //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30807,34 +52283,56 @@ void registerClusterPumpConfigurationAndControl(Commands & commands)
     const char * clusterName = "PumpConfigurationAndControl";
 
     commands_list clusterCommands = {
-        make_unique<ReadPumpConfigurationAndControlMaxPressure>(),            //
-        make_unique<ReadPumpConfigurationAndControlMaxSpeed>(),               //
-        make_unique<ReadPumpConfigurationAndControlMaxFlow>(),                //
-        make_unique<ReadPumpConfigurationAndControlMinConstPressure>(),       //
-        make_unique<ReadPumpConfigurationAndControlMaxConstPressure>(),       //
-        make_unique<ReadPumpConfigurationAndControlMinCompPressure>(),        //
-        make_unique<ReadPumpConfigurationAndControlMaxCompPressure>(),        //
-        make_unique<ReadPumpConfigurationAndControlMinConstSpeed>(),          //
-        make_unique<ReadPumpConfigurationAndControlMaxConstSpeed>(),          //
-        make_unique<ReadPumpConfigurationAndControlMinConstFlow>(),           //
-        make_unique<ReadPumpConfigurationAndControlMaxConstFlow>(),           //
-        make_unique<ReadPumpConfigurationAndControlMinConstTemp>(),           //
-        make_unique<ReadPumpConfigurationAndControlMaxConstTemp>(),           //
-        make_unique<ReadPumpConfigurationAndControlPumpStatus>(),             //
-        make_unique<ReportPumpConfigurationAndControlPumpStatus>(),           //
-        make_unique<ReadPumpConfigurationAndControlEffectiveOperationMode>(), //
-        make_unique<ReadPumpConfigurationAndControlEffectiveControlMode>(),   //
-        make_unique<ReadPumpConfigurationAndControlCapacity>(),               //
-        make_unique<ReportPumpConfigurationAndControlCapacity>(),             //
-        make_unique<ReadPumpConfigurationAndControlSpeed>(),                  //
-        make_unique<ReadPumpConfigurationAndControlLifetimeEnergyConsumed>(), //
-        make_unique<ReadPumpConfigurationAndControlOperationMode>(),          //
-        make_unique<WritePumpConfigurationAndControlOperationMode>(),         //
-        make_unique<ReadPumpConfigurationAndControlControlMode>(),            //
-        make_unique<WritePumpConfigurationAndControlControlMode>(),           //
-        make_unique<ReadPumpConfigurationAndControlAlarmMask>(),              //
-        make_unique<ReadPumpConfigurationAndControlFeatureMap>(),             //
-        make_unique<ReadPumpConfigurationAndControlClusterRevision>(),        //
+        make_unique<ReadPumpConfigurationAndControlMaxPressure>(),              //
+        make_unique<ReportPumpConfigurationAndControlMaxPressure>(),            //
+        make_unique<ReadPumpConfigurationAndControlMaxSpeed>(),                 //
+        make_unique<ReportPumpConfigurationAndControlMaxSpeed>(),               //
+        make_unique<ReadPumpConfigurationAndControlMaxFlow>(),                  //
+        make_unique<ReportPumpConfigurationAndControlMaxFlow>(),                //
+        make_unique<ReadPumpConfigurationAndControlMinConstPressure>(),         //
+        make_unique<ReportPumpConfigurationAndControlMinConstPressure>(),       //
+        make_unique<ReadPumpConfigurationAndControlMaxConstPressure>(),         //
+        make_unique<ReportPumpConfigurationAndControlMaxConstPressure>(),       //
+        make_unique<ReadPumpConfigurationAndControlMinCompPressure>(),          //
+        make_unique<ReportPumpConfigurationAndControlMinCompPressure>(),        //
+        make_unique<ReadPumpConfigurationAndControlMaxCompPressure>(),          //
+        make_unique<ReportPumpConfigurationAndControlMaxCompPressure>(),        //
+        make_unique<ReadPumpConfigurationAndControlMinConstSpeed>(),            //
+        make_unique<ReportPumpConfigurationAndControlMinConstSpeed>(),          //
+        make_unique<ReadPumpConfigurationAndControlMaxConstSpeed>(),            //
+        make_unique<ReportPumpConfigurationAndControlMaxConstSpeed>(),          //
+        make_unique<ReadPumpConfigurationAndControlMinConstFlow>(),             //
+        make_unique<ReportPumpConfigurationAndControlMinConstFlow>(),           //
+        make_unique<ReadPumpConfigurationAndControlMaxConstFlow>(),             //
+        make_unique<ReportPumpConfigurationAndControlMaxConstFlow>(),           //
+        make_unique<ReadPumpConfigurationAndControlMinConstTemp>(),             //
+        make_unique<ReportPumpConfigurationAndControlMinConstTemp>(),           //
+        make_unique<ReadPumpConfigurationAndControlMaxConstTemp>(),             //
+        make_unique<ReportPumpConfigurationAndControlMaxConstTemp>(),           //
+        make_unique<ReadPumpConfigurationAndControlPumpStatus>(),               //
+        make_unique<ReportPumpConfigurationAndControlPumpStatus>(),             //
+        make_unique<ReadPumpConfigurationAndControlEffectiveOperationMode>(),   //
+        make_unique<ReportPumpConfigurationAndControlEffectiveOperationMode>(), //
+        make_unique<ReadPumpConfigurationAndControlEffectiveControlMode>(),     //
+        make_unique<ReportPumpConfigurationAndControlEffectiveControlMode>(),   //
+        make_unique<ReadPumpConfigurationAndControlCapacity>(),                 //
+        make_unique<ReportPumpConfigurationAndControlCapacity>(),               //
+        make_unique<ReadPumpConfigurationAndControlSpeed>(),                    //
+        make_unique<ReportPumpConfigurationAndControlSpeed>(),                  //
+        make_unique<ReadPumpConfigurationAndControlLifetimeEnergyConsumed>(),   //
+        make_unique<ReportPumpConfigurationAndControlLifetimeEnergyConsumed>(), //
+        make_unique<ReadPumpConfigurationAndControlOperationMode>(),            //
+        make_unique<WritePumpConfigurationAndControlOperationMode>(),           //
+        make_unique<ReportPumpConfigurationAndControlOperationMode>(),          //
+        make_unique<ReadPumpConfigurationAndControlControlMode>(),              //
+        make_unique<WritePumpConfigurationAndControlControlMode>(),             //
+        make_unique<ReportPumpConfigurationAndControlControlMode>(),            //
+        make_unique<ReadPumpConfigurationAndControlAlarmMask>(),                //
+        make_unique<ReportPumpConfigurationAndControlAlarmMask>(),              //
+        make_unique<ReadPumpConfigurationAndControlFeatureMap>(),               //
+        make_unique<ReportPumpConfigurationAndControlFeatureMap>(),             //
+        make_unique<ReadPumpConfigurationAndControlClusterRevision>(),          //
+        make_unique<ReportPumpConfigurationAndControlClusterRevision>(),        //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30844,13 +52342,16 @@ void registerClusterRelativeHumidityMeasurement(Commands & commands)
     const char * clusterName = "RelativeHumidityMeasurement";
 
     commands_list clusterCommands = {
-        make_unique<ReadRelativeHumidityMeasurementMeasuredValue>(),    //
-        make_unique<ReportRelativeHumidityMeasurementMeasuredValue>(),  //
-        make_unique<ReadRelativeHumidityMeasurementMinMeasuredValue>(), //
-        make_unique<ReadRelativeHumidityMeasurementMaxMeasuredValue>(), //
-        make_unique<ReadRelativeHumidityMeasurementTolerance>(),        //
-        make_unique<ReportRelativeHumidityMeasurementTolerance>(),      //
-        make_unique<ReadRelativeHumidityMeasurementClusterRevision>(),  //
+        make_unique<ReadRelativeHumidityMeasurementMeasuredValue>(),      //
+        make_unique<ReportRelativeHumidityMeasurementMeasuredValue>(),    //
+        make_unique<ReadRelativeHumidityMeasurementMinMeasuredValue>(),   //
+        make_unique<ReportRelativeHumidityMeasurementMinMeasuredValue>(), //
+        make_unique<ReadRelativeHumidityMeasurementMaxMeasuredValue>(),   //
+        make_unique<ReportRelativeHumidityMeasurementMaxMeasuredValue>(), //
+        make_unique<ReadRelativeHumidityMeasurementTolerance>(),          //
+        make_unique<ReportRelativeHumidityMeasurementTolerance>(),        //
+        make_unique<ReadRelativeHumidityMeasurementClusterRevision>(),    //
+        make_unique<ReportRelativeHumidityMeasurementClusterRevision>(),  //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30860,19 +52361,25 @@ void registerClusterScenes(Commands & commands)
     const char * clusterName = "Scenes";
 
     commands_list clusterCommands = {
-        make_unique<ScenesAddScene>(),            //
-        make_unique<ScenesGetSceneMembership>(),  //
-        make_unique<ScenesRecallScene>(),         //
-        make_unique<ScenesRemoveAllScenes>(),     //
-        make_unique<ScenesRemoveScene>(),         //
-        make_unique<ScenesStoreScene>(),          //
-        make_unique<ScenesViewScene>(),           //
-        make_unique<ReadScenesSceneCount>(),      //
-        make_unique<ReadScenesCurrentScene>(),    //
-        make_unique<ReadScenesCurrentGroup>(),    //
-        make_unique<ReadScenesSceneValid>(),      //
-        make_unique<ReadScenesNameSupport>(),     //
-        make_unique<ReadScenesClusterRevision>(), //
+        make_unique<ScenesAddScene>(),              //
+        make_unique<ScenesGetSceneMembership>(),    //
+        make_unique<ScenesRecallScene>(),           //
+        make_unique<ScenesRemoveAllScenes>(),       //
+        make_unique<ScenesRemoveScene>(),           //
+        make_unique<ScenesStoreScene>(),            //
+        make_unique<ScenesViewScene>(),             //
+        make_unique<ReadScenesSceneCount>(),        //
+        make_unique<ReportScenesSceneCount>(),      //
+        make_unique<ReadScenesCurrentScene>(),      //
+        make_unique<ReportScenesCurrentScene>(),    //
+        make_unique<ReadScenesCurrentGroup>(),      //
+        make_unique<ReportScenesCurrentGroup>(),    //
+        make_unique<ReadScenesSceneValid>(),        //
+        make_unique<ReportScenesSceneValid>(),      //
+        make_unique<ReadScenesNameSupport>(),       //
+        make_unique<ReportScenesNameSupport>(),     //
+        make_unique<ReadScenesClusterRevision>(),   //
+        make_unique<ReportScenesClusterRevision>(), //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30882,12 +52389,16 @@ void registerClusterSoftwareDiagnostics(Commands & commands)
     const char * clusterName = "SoftwareDiagnostics";
 
     commands_list clusterCommands = {
-        make_unique<SoftwareDiagnosticsResetWatermarks>(),              //
-        make_unique<ReadSoftwareDiagnosticsThreadMetrics>(),            //
-        make_unique<ReadSoftwareDiagnosticsCurrentHeapFree>(),          //
-        make_unique<ReadSoftwareDiagnosticsCurrentHeapUsed>(),          //
-        make_unique<ReadSoftwareDiagnosticsCurrentHeapHighWatermark>(), //
-        make_unique<ReadSoftwareDiagnosticsClusterRevision>(),          //
+        make_unique<SoftwareDiagnosticsResetWatermarks>(),                //
+        make_unique<ReadSoftwareDiagnosticsThreadMetrics>(),              //
+        make_unique<ReadSoftwareDiagnosticsCurrentHeapFree>(),            //
+        make_unique<ReportSoftwareDiagnosticsCurrentHeapFree>(),          //
+        make_unique<ReadSoftwareDiagnosticsCurrentHeapUsed>(),            //
+        make_unique<ReportSoftwareDiagnosticsCurrentHeapUsed>(),          //
+        make_unique<ReadSoftwareDiagnosticsCurrentHeapHighWatermark>(),   //
+        make_unique<ReportSoftwareDiagnosticsCurrentHeapHighWatermark>(), //
+        make_unique<ReadSoftwareDiagnosticsClusterRevision>(),            //
+        make_unique<ReportSoftwareDiagnosticsClusterRevision>(),          //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30897,12 +52408,16 @@ void registerClusterSwitch(Commands & commands)
     const char * clusterName = "Switch";
 
     commands_list clusterCommands = {
-        make_unique<ReadSwitchNumberOfPositions>(), //
-        make_unique<ReadSwitchCurrentPosition>(),   //
-        make_unique<ReportSwitchCurrentPosition>(), //
-        make_unique<ReadSwitchMultiPressMax>(),     //
-        make_unique<ReadSwitchFeatureMap>(),        //
-        make_unique<ReadSwitchClusterRevision>(),   //
+        make_unique<ReadSwitchNumberOfPositions>(),   //
+        make_unique<ReportSwitchNumberOfPositions>(), //
+        make_unique<ReadSwitchCurrentPosition>(),     //
+        make_unique<ReportSwitchCurrentPosition>(),   //
+        make_unique<ReadSwitchMultiPressMax>(),       //
+        make_unique<ReportSwitchMultiPressMax>(),     //
+        make_unique<ReadSwitchFeatureMap>(),          //
+        make_unique<ReportSwitchFeatureMap>(),        //
+        make_unique<ReadSwitchClusterRevision>(),     //
+        make_unique<ReportSwitchClusterRevision>(),   //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30912,13 +52427,16 @@ void registerClusterTvChannel(Commands & commands)
     const char * clusterName = "TvChannel";
 
     commands_list clusterCommands = {
-        make_unique<TvChannelChangeChannel>(),         //
-        make_unique<TvChannelChangeChannelByNumber>(), //
-        make_unique<TvChannelSkipChannel>(),           //
-        make_unique<ReadTvChannelTvChannelList>(),     //
-        make_unique<ReadTvChannelTvChannelLineup>(),   //
-        make_unique<ReadTvChannelCurrentTvChannel>(),  //
-        make_unique<ReadTvChannelClusterRevision>(),   //
+        make_unique<TvChannelChangeChannel>(),          //
+        make_unique<TvChannelChangeChannelByNumber>(),  //
+        make_unique<TvChannelSkipChannel>(),            //
+        make_unique<ReadTvChannelTvChannelList>(),      //
+        make_unique<ReadTvChannelTvChannelLineup>(),    //
+        make_unique<ReportTvChannelTvChannelLineup>(),  //
+        make_unique<ReadTvChannelCurrentTvChannel>(),   //
+        make_unique<ReportTvChannelCurrentTvChannel>(), //
+        make_unique<ReadTvChannelClusterRevision>(),    //
+        make_unique<ReportTvChannelClusterRevision>(),  //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30931,6 +52449,7 @@ void registerClusterTargetNavigator(Commands & commands)
         make_unique<TargetNavigatorNavigateTarget>(),          //
         make_unique<ReadTargetNavigatorTargetNavigatorList>(), //
         make_unique<ReadTargetNavigatorClusterRevision>(),     //
+        make_unique<ReportTargetNavigatorClusterRevision>(),   //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30940,13 +52459,16 @@ void registerClusterTemperatureMeasurement(Commands & commands)
     const char * clusterName = "TemperatureMeasurement";
 
     commands_list clusterCommands = {
-        make_unique<ReadTemperatureMeasurementMeasuredValue>(),    //
-        make_unique<ReportTemperatureMeasurementMeasuredValue>(),  //
-        make_unique<ReadTemperatureMeasurementMinMeasuredValue>(), //
-        make_unique<ReadTemperatureMeasurementMaxMeasuredValue>(), //
-        make_unique<ReadTemperatureMeasurementTolerance>(),        //
-        make_unique<ReportTemperatureMeasurementTolerance>(),      //
-        make_unique<ReadTemperatureMeasurementClusterRevision>(),  //
+        make_unique<ReadTemperatureMeasurementMeasuredValue>(),      //
+        make_unique<ReportTemperatureMeasurementMeasuredValue>(),    //
+        make_unique<ReadTemperatureMeasurementMinMeasuredValue>(),   //
+        make_unique<ReportTemperatureMeasurementMinMeasuredValue>(), //
+        make_unique<ReadTemperatureMeasurementMaxMeasuredValue>(),   //
+        make_unique<ReportTemperatureMeasurementMaxMeasuredValue>(), //
+        make_unique<ReadTemperatureMeasurementTolerance>(),          //
+        make_unique<ReportTemperatureMeasurementTolerance>(),        //
+        make_unique<ReadTemperatureMeasurementClusterRevision>(),    //
+        make_unique<ReportTemperatureMeasurementClusterRevision>(),  //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -30969,89 +52491,130 @@ void registerClusterTestCluster(Commands & commands)
         make_unique<TestClusterTestUnknownCommand>(),                  //
         make_unique<ReadTestClusterBoolean>(),                         //
         make_unique<WriteTestClusterBoolean>(),                        //
+        make_unique<ReportTestClusterBoolean>(),                       //
         make_unique<ReadTestClusterBitmap8>(),                         //
         make_unique<WriteTestClusterBitmap8>(),                        //
+        make_unique<ReportTestClusterBitmap8>(),                       //
         make_unique<ReadTestClusterBitmap16>(),                        //
         make_unique<WriteTestClusterBitmap16>(),                       //
+        make_unique<ReportTestClusterBitmap16>(),                      //
         make_unique<ReadTestClusterBitmap32>(),                        //
         make_unique<WriteTestClusterBitmap32>(),                       //
+        make_unique<ReportTestClusterBitmap32>(),                      //
         make_unique<ReadTestClusterBitmap64>(),                        //
         make_unique<WriteTestClusterBitmap64>(),                       //
+        make_unique<ReportTestClusterBitmap64>(),                      //
         make_unique<ReadTestClusterInt8u>(),                           //
         make_unique<WriteTestClusterInt8u>(),                          //
+        make_unique<ReportTestClusterInt8u>(),                         //
         make_unique<ReadTestClusterInt16u>(),                          //
         make_unique<WriteTestClusterInt16u>(),                         //
+        make_unique<ReportTestClusterInt16u>(),                        //
         make_unique<ReadTestClusterInt32u>(),                          //
         make_unique<WriteTestClusterInt32u>(),                         //
+        make_unique<ReportTestClusterInt32u>(),                        //
         make_unique<ReadTestClusterInt64u>(),                          //
         make_unique<WriteTestClusterInt64u>(),                         //
+        make_unique<ReportTestClusterInt64u>(),                        //
         make_unique<ReadTestClusterInt8s>(),                           //
         make_unique<WriteTestClusterInt8s>(),                          //
+        make_unique<ReportTestClusterInt8s>(),                         //
         make_unique<ReadTestClusterInt16s>(),                          //
         make_unique<WriteTestClusterInt16s>(),                         //
+        make_unique<ReportTestClusterInt16s>(),                        //
         make_unique<ReadTestClusterInt32s>(),                          //
         make_unique<WriteTestClusterInt32s>(),                         //
+        make_unique<ReportTestClusterInt32s>(),                        //
         make_unique<ReadTestClusterInt64s>(),                          //
         make_unique<WriteTestClusterInt64s>(),                         //
+        make_unique<ReportTestClusterInt64s>(),                        //
         make_unique<ReadTestClusterEnum8>(),                           //
         make_unique<WriteTestClusterEnum8>(),                          //
+        make_unique<ReportTestClusterEnum8>(),                         //
         make_unique<ReadTestClusterEnum16>(),                          //
         make_unique<WriteTestClusterEnum16>(),                         //
+        make_unique<ReportTestClusterEnum16>(),                        //
         make_unique<ReadTestClusterOctetString>(),                     //
         make_unique<WriteTestClusterOctetString>(),                    //
+        make_unique<ReportTestClusterOctetString>(),                   //
         make_unique<ReadTestClusterListInt8u>(),                       //
         make_unique<ReadTestClusterListOctetString>(),                 //
         make_unique<ReadTestClusterListStructOctetString>(),           //
         make_unique<ReadTestClusterLongOctetString>(),                 //
         make_unique<WriteTestClusterLongOctetString>(),                //
+        make_unique<ReportTestClusterLongOctetString>(),               //
         make_unique<ReadTestClusterCharString>(),                      //
         make_unique<WriteTestClusterCharString>(),                     //
+        make_unique<ReportTestClusterCharString>(),                    //
         make_unique<ReadTestClusterLongCharString>(),                  //
         make_unique<WriteTestClusterLongCharString>(),                 //
+        make_unique<ReportTestClusterLongCharString>(),                //
         make_unique<ReadTestClusterEpochUs>(),                         //
         make_unique<WriteTestClusterEpochUs>(),                        //
+        make_unique<ReportTestClusterEpochUs>(),                       //
         make_unique<ReadTestClusterEpochS>(),                          //
         make_unique<WriteTestClusterEpochS>(),                         //
+        make_unique<ReportTestClusterEpochS>(),                        //
         make_unique<ReadTestClusterVendorId>(),                        //
         make_unique<WriteTestClusterVendorId>(),                       //
+        make_unique<ReportTestClusterVendorId>(),                      //
         make_unique<ReadTestClusterListNullablesAndOptionalsStruct>(), //
         make_unique<ReadTestClusterUnsupported>(),                     //
         make_unique<WriteTestClusterUnsupported>(),                    //
+        make_unique<ReportTestClusterUnsupported>(),                   //
         make_unique<ReadTestClusterNullableBoolean>(),                 //
         make_unique<WriteTestClusterNullableBoolean>(),                //
+        make_unique<ReportTestClusterNullableBoolean>(),               //
         make_unique<ReadTestClusterNullableBitmap8>(),                 //
         make_unique<WriteTestClusterNullableBitmap8>(),                //
+        make_unique<ReportTestClusterNullableBitmap8>(),               //
         make_unique<ReadTestClusterNullableBitmap16>(),                //
         make_unique<WriteTestClusterNullableBitmap16>(),               //
+        make_unique<ReportTestClusterNullableBitmap16>(),              //
         make_unique<ReadTestClusterNullableBitmap32>(),                //
         make_unique<WriteTestClusterNullableBitmap32>(),               //
+        make_unique<ReportTestClusterNullableBitmap32>(),              //
         make_unique<ReadTestClusterNullableBitmap64>(),                //
         make_unique<WriteTestClusterNullableBitmap64>(),               //
+        make_unique<ReportTestClusterNullableBitmap64>(),              //
         make_unique<ReadTestClusterNullableInt8u>(),                   //
         make_unique<WriteTestClusterNullableInt8u>(),                  //
+        make_unique<ReportTestClusterNullableInt8u>(),                 //
         make_unique<ReadTestClusterNullableInt16u>(),                  //
         make_unique<WriteTestClusterNullableInt16u>(),                 //
+        make_unique<ReportTestClusterNullableInt16u>(),                //
         make_unique<ReadTestClusterNullableInt32u>(),                  //
         make_unique<WriteTestClusterNullableInt32u>(),                 //
+        make_unique<ReportTestClusterNullableInt32u>(),                //
         make_unique<ReadTestClusterNullableInt64u>(),                  //
         make_unique<WriteTestClusterNullableInt64u>(),                 //
+        make_unique<ReportTestClusterNullableInt64u>(),                //
         make_unique<ReadTestClusterNullableInt8s>(),                   //
         make_unique<WriteTestClusterNullableInt8s>(),                  //
+        make_unique<ReportTestClusterNullableInt8s>(),                 //
         make_unique<ReadTestClusterNullableInt16s>(),                  //
         make_unique<WriteTestClusterNullableInt16s>(),                 //
+        make_unique<ReportTestClusterNullableInt16s>(),                //
         make_unique<ReadTestClusterNullableInt32s>(),                  //
         make_unique<WriteTestClusterNullableInt32s>(),                 //
+        make_unique<ReportTestClusterNullableInt32s>(),                //
         make_unique<ReadTestClusterNullableInt64s>(),                  //
         make_unique<WriteTestClusterNullableInt64s>(),                 //
+        make_unique<ReportTestClusterNullableInt64s>(),                //
         make_unique<ReadTestClusterNullableEnum8>(),                   //
         make_unique<WriteTestClusterNullableEnum8>(),                  //
+        make_unique<ReportTestClusterNullableEnum8>(),                 //
         make_unique<ReadTestClusterNullableEnum16>(),                  //
         make_unique<WriteTestClusterNullableEnum16>(),                 //
+        make_unique<ReportTestClusterNullableEnum16>(),                //
         make_unique<ReadTestClusterNullableOctetString>(),             //
         make_unique<WriteTestClusterNullableOctetString>(),            //
+        make_unique<ReportTestClusterNullableOctetString>(),           //
         make_unique<ReadTestClusterNullableCharString>(),              //
         make_unique<WriteTestClusterNullableCharString>(),             //
+        make_unique<ReportTestClusterNullableCharString>(),            //
         make_unique<ReadTestClusterClusterRevision>(),                 //
+        make_unique<ReportTestClusterClusterRevision>(),               //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -31061,40 +52624,58 @@ void registerClusterThermostat(Commands & commands)
     const char * clusterName = "Thermostat";
 
     commands_list clusterCommands = {
-        make_unique<ThermostatClearWeeklySchedule>(),             //
-        make_unique<ThermostatGetRelayStatusLog>(),               //
-        make_unique<ThermostatGetWeeklySchedule>(),               //
-        make_unique<ThermostatSetWeeklySchedule>(),               //
-        make_unique<ThermostatSetpointRaiseLower>(),              //
-        make_unique<ReadThermostatLocalTemperature>(),            //
-        make_unique<ReportThermostatLocalTemperature>(),          //
-        make_unique<ReadThermostatAbsMinHeatSetpointLimit>(),     //
-        make_unique<ReadThermostatAbsMaxHeatSetpointLimit>(),     //
-        make_unique<ReadThermostatAbsMinCoolSetpointLimit>(),     //
-        make_unique<ReadThermostatAbsMaxCoolSetpointLimit>(),     //
-        make_unique<ReadThermostatOccupiedCoolingSetpoint>(),     //
-        make_unique<WriteThermostatOccupiedCoolingSetpoint>(),    //
-        make_unique<ReadThermostatOccupiedHeatingSetpoint>(),     //
-        make_unique<WriteThermostatOccupiedHeatingSetpoint>(),    //
-        make_unique<ReadThermostatMinHeatSetpointLimit>(),        //
-        make_unique<WriteThermostatMinHeatSetpointLimit>(),       //
-        make_unique<ReadThermostatMaxHeatSetpointLimit>(),        //
-        make_unique<WriteThermostatMaxHeatSetpointLimit>(),       //
-        make_unique<ReadThermostatMinCoolSetpointLimit>(),        //
-        make_unique<WriteThermostatMinCoolSetpointLimit>(),       //
-        make_unique<ReadThermostatMaxCoolSetpointLimit>(),        //
-        make_unique<WriteThermostatMaxCoolSetpointLimit>(),       //
-        make_unique<ReadThermostatMinSetpointDeadBand>(),         //
-        make_unique<WriteThermostatMinSetpointDeadBand>(),        //
-        make_unique<ReadThermostatControlSequenceOfOperation>(),  //
-        make_unique<WriteThermostatControlSequenceOfOperation>(), //
-        make_unique<ReadThermostatSystemMode>(),                  //
-        make_unique<WriteThermostatSystemMode>(),                 //
-        make_unique<ReadThermostatStartOfWeek>(),                 //
-        make_unique<ReadThermostatNumberOfWeeklyTransitions>(),   //
-        make_unique<ReadThermostatNumberOfDailyTransitions>(),    //
-        make_unique<ReadThermostatFeatureMap>(),                  //
-        make_unique<ReadThermostatClusterRevision>(),             //
+        make_unique<ThermostatClearWeeklySchedule>(),              //
+        make_unique<ThermostatGetRelayStatusLog>(),                //
+        make_unique<ThermostatGetWeeklySchedule>(),                //
+        make_unique<ThermostatSetWeeklySchedule>(),                //
+        make_unique<ThermostatSetpointRaiseLower>(),               //
+        make_unique<ReadThermostatLocalTemperature>(),             //
+        make_unique<ReportThermostatLocalTemperature>(),           //
+        make_unique<ReadThermostatAbsMinHeatSetpointLimit>(),      //
+        make_unique<ReportThermostatAbsMinHeatSetpointLimit>(),    //
+        make_unique<ReadThermostatAbsMaxHeatSetpointLimit>(),      //
+        make_unique<ReportThermostatAbsMaxHeatSetpointLimit>(),    //
+        make_unique<ReadThermostatAbsMinCoolSetpointLimit>(),      //
+        make_unique<ReportThermostatAbsMinCoolSetpointLimit>(),    //
+        make_unique<ReadThermostatAbsMaxCoolSetpointLimit>(),      //
+        make_unique<ReportThermostatAbsMaxCoolSetpointLimit>(),    //
+        make_unique<ReadThermostatOccupiedCoolingSetpoint>(),      //
+        make_unique<WriteThermostatOccupiedCoolingSetpoint>(),     //
+        make_unique<ReportThermostatOccupiedCoolingSetpoint>(),    //
+        make_unique<ReadThermostatOccupiedHeatingSetpoint>(),      //
+        make_unique<WriteThermostatOccupiedHeatingSetpoint>(),     //
+        make_unique<ReportThermostatOccupiedHeatingSetpoint>(),    //
+        make_unique<ReadThermostatMinHeatSetpointLimit>(),         //
+        make_unique<WriteThermostatMinHeatSetpointLimit>(),        //
+        make_unique<ReportThermostatMinHeatSetpointLimit>(),       //
+        make_unique<ReadThermostatMaxHeatSetpointLimit>(),         //
+        make_unique<WriteThermostatMaxHeatSetpointLimit>(),        //
+        make_unique<ReportThermostatMaxHeatSetpointLimit>(),       //
+        make_unique<ReadThermostatMinCoolSetpointLimit>(),         //
+        make_unique<WriteThermostatMinCoolSetpointLimit>(),        //
+        make_unique<ReportThermostatMinCoolSetpointLimit>(),       //
+        make_unique<ReadThermostatMaxCoolSetpointLimit>(),         //
+        make_unique<WriteThermostatMaxCoolSetpointLimit>(),        //
+        make_unique<ReportThermostatMaxCoolSetpointLimit>(),       //
+        make_unique<ReadThermostatMinSetpointDeadBand>(),          //
+        make_unique<WriteThermostatMinSetpointDeadBand>(),         //
+        make_unique<ReportThermostatMinSetpointDeadBand>(),        //
+        make_unique<ReadThermostatControlSequenceOfOperation>(),   //
+        make_unique<WriteThermostatControlSequenceOfOperation>(),  //
+        make_unique<ReportThermostatControlSequenceOfOperation>(), //
+        make_unique<ReadThermostatSystemMode>(),                   //
+        make_unique<WriteThermostatSystemMode>(),                  //
+        make_unique<ReportThermostatSystemMode>(),                 //
+        make_unique<ReadThermostatStartOfWeek>(),                  //
+        make_unique<ReportThermostatStartOfWeek>(),                //
+        make_unique<ReadThermostatNumberOfWeeklyTransitions>(),    //
+        make_unique<ReportThermostatNumberOfWeeklyTransitions>(),  //
+        make_unique<ReadThermostatNumberOfDailyTransitions>(),     //
+        make_unique<ReportThermostatNumberOfDailyTransitions>(),   //
+        make_unique<ReadThermostatFeatureMap>(),                   //
+        make_unique<ReportThermostatFeatureMap>(),                 //
+        make_unique<ReadThermostatClusterRevision>(),              //
+        make_unique<ReportThermostatClusterRevision>(),            //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -31104,13 +52685,17 @@ void registerClusterThermostatUserInterfaceConfiguration(Commands & commands)
     const char * clusterName = "ThermostatUserInterfaceConfiguration";
 
     commands_list clusterCommands = {
-        make_unique<ReadThermostatUserInterfaceConfigurationTemperatureDisplayMode>(),         //
-        make_unique<WriteThermostatUserInterfaceConfigurationTemperatureDisplayMode>(),        //
-        make_unique<ReadThermostatUserInterfaceConfigurationKeypadLockout>(),                  //
-        make_unique<WriteThermostatUserInterfaceConfigurationKeypadLockout>(),                 //
-        make_unique<ReadThermostatUserInterfaceConfigurationScheduleProgrammingVisibility>(),  //
-        make_unique<WriteThermostatUserInterfaceConfigurationScheduleProgrammingVisibility>(), //
-        make_unique<ReadThermostatUserInterfaceConfigurationClusterRevision>(),                //
+        make_unique<ReadThermostatUserInterfaceConfigurationTemperatureDisplayMode>(),          //
+        make_unique<WriteThermostatUserInterfaceConfigurationTemperatureDisplayMode>(),         //
+        make_unique<ReportThermostatUserInterfaceConfigurationTemperatureDisplayMode>(),        //
+        make_unique<ReadThermostatUserInterfaceConfigurationKeypadLockout>(),                   //
+        make_unique<WriteThermostatUserInterfaceConfigurationKeypadLockout>(),                  //
+        make_unique<ReportThermostatUserInterfaceConfigurationKeypadLockout>(),                 //
+        make_unique<ReadThermostatUserInterfaceConfigurationScheduleProgrammingVisibility>(),   //
+        make_unique<WriteThermostatUserInterfaceConfigurationScheduleProgrammingVisibility>(),  //
+        make_unique<ReportThermostatUserInterfaceConfigurationScheduleProgrammingVisibility>(), //
+        make_unique<ReadThermostatUserInterfaceConfigurationClusterRevision>(),                 //
+        make_unique<ReportThermostatUserInterfaceConfigurationClusterRevision>(),               //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -31120,71 +52705,130 @@ void registerClusterThreadNetworkDiagnostics(Commands & commands)
     const char * clusterName = "ThreadNetworkDiagnostics";
 
     commands_list clusterCommands = {
-        make_unique<ThreadNetworkDiagnosticsResetCounts>(),                           //
-        make_unique<ReadThreadNetworkDiagnosticsChannel>(),                           //
-        make_unique<ReadThreadNetworkDiagnosticsRoutingRole>(),                       //
-        make_unique<ReadThreadNetworkDiagnosticsNetworkName>(),                       //
-        make_unique<ReadThreadNetworkDiagnosticsPanId>(),                             //
-        make_unique<ReadThreadNetworkDiagnosticsExtendedPanId>(),                     //
-        make_unique<ReadThreadNetworkDiagnosticsMeshLocalPrefix>(),                   //
-        make_unique<ReadThreadNetworkDiagnosticsOverrunCount>(),                      //
-        make_unique<ReadThreadNetworkDiagnosticsNeighborTableList>(),                 //
-        make_unique<ReadThreadNetworkDiagnosticsRouteTableList>(),                    //
-        make_unique<ReadThreadNetworkDiagnosticsPartitionId>(),                       //
-        make_unique<ReadThreadNetworkDiagnosticsWeighting>(),                         //
-        make_unique<ReadThreadNetworkDiagnosticsDataVersion>(),                       //
-        make_unique<ReadThreadNetworkDiagnosticsStableDataVersion>(),                 //
-        make_unique<ReadThreadNetworkDiagnosticsLeaderRouterId>(),                    //
-        make_unique<ReadThreadNetworkDiagnosticsDetachedRoleCount>(),                 //
-        make_unique<ReadThreadNetworkDiagnosticsChildRoleCount>(),                    //
-        make_unique<ReadThreadNetworkDiagnosticsRouterRoleCount>(),                   //
-        make_unique<ReadThreadNetworkDiagnosticsLeaderRoleCount>(),                   //
-        make_unique<ReadThreadNetworkDiagnosticsAttachAttemptCount>(),                //
-        make_unique<ReadThreadNetworkDiagnosticsPartitionIdChangeCount>(),            //
-        make_unique<ReadThreadNetworkDiagnosticsBetterPartitionAttachAttemptCount>(), //
-        make_unique<ReadThreadNetworkDiagnosticsParentChangeCount>(),                 //
-        make_unique<ReadThreadNetworkDiagnosticsTxTotalCount>(),                      //
-        make_unique<ReadThreadNetworkDiagnosticsTxUnicastCount>(),                    //
-        make_unique<ReadThreadNetworkDiagnosticsTxBroadcastCount>(),                  //
-        make_unique<ReadThreadNetworkDiagnosticsTxAckRequestedCount>(),               //
-        make_unique<ReadThreadNetworkDiagnosticsTxAckedCount>(),                      //
-        make_unique<ReadThreadNetworkDiagnosticsTxNoAckRequestedCount>(),             //
-        make_unique<ReadThreadNetworkDiagnosticsTxDataCount>(),                       //
-        make_unique<ReadThreadNetworkDiagnosticsTxDataPollCount>(),                   //
-        make_unique<ReadThreadNetworkDiagnosticsTxBeaconCount>(),                     //
-        make_unique<ReadThreadNetworkDiagnosticsTxBeaconRequestCount>(),              //
-        make_unique<ReadThreadNetworkDiagnosticsTxOtherCount>(),                      //
-        make_unique<ReadThreadNetworkDiagnosticsTxRetryCount>(),                      //
-        make_unique<ReadThreadNetworkDiagnosticsTxDirectMaxRetryExpiryCount>(),       //
-        make_unique<ReadThreadNetworkDiagnosticsTxIndirectMaxRetryExpiryCount>(),     //
-        make_unique<ReadThreadNetworkDiagnosticsTxErrCcaCount>(),                     //
-        make_unique<ReadThreadNetworkDiagnosticsTxErrAbortCount>(),                   //
-        make_unique<ReadThreadNetworkDiagnosticsTxErrBusyChannelCount>(),             //
-        make_unique<ReadThreadNetworkDiagnosticsRxTotalCount>(),                      //
-        make_unique<ReadThreadNetworkDiagnosticsRxUnicastCount>(),                    //
-        make_unique<ReadThreadNetworkDiagnosticsRxBroadcastCount>(),                  //
-        make_unique<ReadThreadNetworkDiagnosticsRxDataCount>(),                       //
-        make_unique<ReadThreadNetworkDiagnosticsRxDataPollCount>(),                   //
-        make_unique<ReadThreadNetworkDiagnosticsRxBeaconCount>(),                     //
-        make_unique<ReadThreadNetworkDiagnosticsRxBeaconRequestCount>(),              //
-        make_unique<ReadThreadNetworkDiagnosticsRxOtherCount>(),                      //
-        make_unique<ReadThreadNetworkDiagnosticsRxAddressFilteredCount>(),            //
-        make_unique<ReadThreadNetworkDiagnosticsRxDestAddrFilteredCount>(),           //
-        make_unique<ReadThreadNetworkDiagnosticsRxDuplicatedCount>(),                 //
-        make_unique<ReadThreadNetworkDiagnosticsRxErrNoFrameCount>(),                 //
-        make_unique<ReadThreadNetworkDiagnosticsRxErrUnknownNeighborCount>(),         //
-        make_unique<ReadThreadNetworkDiagnosticsRxErrInvalidSrcAddrCount>(),          //
-        make_unique<ReadThreadNetworkDiagnosticsRxErrSecCount>(),                     //
-        make_unique<ReadThreadNetworkDiagnosticsRxErrFcsCount>(),                     //
-        make_unique<ReadThreadNetworkDiagnosticsRxErrOtherCount>(),                   //
-        make_unique<ReadThreadNetworkDiagnosticsActiveTimestamp>(),                   //
-        make_unique<ReadThreadNetworkDiagnosticsPendingTimestamp>(),                  //
-        make_unique<ReadThreadNetworkDiagnosticsDelay>(),                             //
-        make_unique<ReadThreadNetworkDiagnosticsSecurityPolicy>(),                    //
-        make_unique<ReadThreadNetworkDiagnosticsChannelMask>(),                       //
-        make_unique<ReadThreadNetworkDiagnosticsOperationalDatasetComponents>(),      //
-        make_unique<ReadThreadNetworkDiagnosticsActiveNetworkFaultsList>(),           //
-        make_unique<ReadThreadNetworkDiagnosticsClusterRevision>(),                   //
+        make_unique<ThreadNetworkDiagnosticsResetCounts>(),                             //
+        make_unique<ReadThreadNetworkDiagnosticsChannel>(),                             //
+        make_unique<ReportThreadNetworkDiagnosticsChannel>(),                           //
+        make_unique<ReadThreadNetworkDiagnosticsRoutingRole>(),                         //
+        make_unique<ReportThreadNetworkDiagnosticsRoutingRole>(),                       //
+        make_unique<ReadThreadNetworkDiagnosticsNetworkName>(),                         //
+        make_unique<ReportThreadNetworkDiagnosticsNetworkName>(),                       //
+        make_unique<ReadThreadNetworkDiagnosticsPanId>(),                               //
+        make_unique<ReportThreadNetworkDiagnosticsPanId>(),                             //
+        make_unique<ReadThreadNetworkDiagnosticsExtendedPanId>(),                       //
+        make_unique<ReportThreadNetworkDiagnosticsExtendedPanId>(),                     //
+        make_unique<ReadThreadNetworkDiagnosticsMeshLocalPrefix>(),                     //
+        make_unique<ReportThreadNetworkDiagnosticsMeshLocalPrefix>(),                   //
+        make_unique<ReadThreadNetworkDiagnosticsOverrunCount>(),                        //
+        make_unique<ReportThreadNetworkDiagnosticsOverrunCount>(),                      //
+        make_unique<ReadThreadNetworkDiagnosticsNeighborTableList>(),                   //
+        make_unique<ReadThreadNetworkDiagnosticsRouteTableList>(),                      //
+        make_unique<ReadThreadNetworkDiagnosticsPartitionId>(),                         //
+        make_unique<ReportThreadNetworkDiagnosticsPartitionId>(),                       //
+        make_unique<ReadThreadNetworkDiagnosticsWeighting>(),                           //
+        make_unique<ReportThreadNetworkDiagnosticsWeighting>(),                         //
+        make_unique<ReadThreadNetworkDiagnosticsDataVersion>(),                         //
+        make_unique<ReportThreadNetworkDiagnosticsDataVersion>(),                       //
+        make_unique<ReadThreadNetworkDiagnosticsStableDataVersion>(),                   //
+        make_unique<ReportThreadNetworkDiagnosticsStableDataVersion>(),                 //
+        make_unique<ReadThreadNetworkDiagnosticsLeaderRouterId>(),                      //
+        make_unique<ReportThreadNetworkDiagnosticsLeaderRouterId>(),                    //
+        make_unique<ReadThreadNetworkDiagnosticsDetachedRoleCount>(),                   //
+        make_unique<ReportThreadNetworkDiagnosticsDetachedRoleCount>(),                 //
+        make_unique<ReadThreadNetworkDiagnosticsChildRoleCount>(),                      //
+        make_unique<ReportThreadNetworkDiagnosticsChildRoleCount>(),                    //
+        make_unique<ReadThreadNetworkDiagnosticsRouterRoleCount>(),                     //
+        make_unique<ReportThreadNetworkDiagnosticsRouterRoleCount>(),                   //
+        make_unique<ReadThreadNetworkDiagnosticsLeaderRoleCount>(),                     //
+        make_unique<ReportThreadNetworkDiagnosticsLeaderRoleCount>(),                   //
+        make_unique<ReadThreadNetworkDiagnosticsAttachAttemptCount>(),                  //
+        make_unique<ReportThreadNetworkDiagnosticsAttachAttemptCount>(),                //
+        make_unique<ReadThreadNetworkDiagnosticsPartitionIdChangeCount>(),              //
+        make_unique<ReportThreadNetworkDiagnosticsPartitionIdChangeCount>(),            //
+        make_unique<ReadThreadNetworkDiagnosticsBetterPartitionAttachAttemptCount>(),   //
+        make_unique<ReportThreadNetworkDiagnosticsBetterPartitionAttachAttemptCount>(), //
+        make_unique<ReadThreadNetworkDiagnosticsParentChangeCount>(),                   //
+        make_unique<ReportThreadNetworkDiagnosticsParentChangeCount>(),                 //
+        make_unique<ReadThreadNetworkDiagnosticsTxTotalCount>(),                        //
+        make_unique<ReportThreadNetworkDiagnosticsTxTotalCount>(),                      //
+        make_unique<ReadThreadNetworkDiagnosticsTxUnicastCount>(),                      //
+        make_unique<ReportThreadNetworkDiagnosticsTxUnicastCount>(),                    //
+        make_unique<ReadThreadNetworkDiagnosticsTxBroadcastCount>(),                    //
+        make_unique<ReportThreadNetworkDiagnosticsTxBroadcastCount>(),                  //
+        make_unique<ReadThreadNetworkDiagnosticsTxAckRequestedCount>(),                 //
+        make_unique<ReportThreadNetworkDiagnosticsTxAckRequestedCount>(),               //
+        make_unique<ReadThreadNetworkDiagnosticsTxAckedCount>(),                        //
+        make_unique<ReportThreadNetworkDiagnosticsTxAckedCount>(),                      //
+        make_unique<ReadThreadNetworkDiagnosticsTxNoAckRequestedCount>(),               //
+        make_unique<ReportThreadNetworkDiagnosticsTxNoAckRequestedCount>(),             //
+        make_unique<ReadThreadNetworkDiagnosticsTxDataCount>(),                         //
+        make_unique<ReportThreadNetworkDiagnosticsTxDataCount>(),                       //
+        make_unique<ReadThreadNetworkDiagnosticsTxDataPollCount>(),                     //
+        make_unique<ReportThreadNetworkDiagnosticsTxDataPollCount>(),                   //
+        make_unique<ReadThreadNetworkDiagnosticsTxBeaconCount>(),                       //
+        make_unique<ReportThreadNetworkDiagnosticsTxBeaconCount>(),                     //
+        make_unique<ReadThreadNetworkDiagnosticsTxBeaconRequestCount>(),                //
+        make_unique<ReportThreadNetworkDiagnosticsTxBeaconRequestCount>(),              //
+        make_unique<ReadThreadNetworkDiagnosticsTxOtherCount>(),                        //
+        make_unique<ReportThreadNetworkDiagnosticsTxOtherCount>(),                      //
+        make_unique<ReadThreadNetworkDiagnosticsTxRetryCount>(),                        //
+        make_unique<ReportThreadNetworkDiagnosticsTxRetryCount>(),                      //
+        make_unique<ReadThreadNetworkDiagnosticsTxDirectMaxRetryExpiryCount>(),         //
+        make_unique<ReportThreadNetworkDiagnosticsTxDirectMaxRetryExpiryCount>(),       //
+        make_unique<ReadThreadNetworkDiagnosticsTxIndirectMaxRetryExpiryCount>(),       //
+        make_unique<ReportThreadNetworkDiagnosticsTxIndirectMaxRetryExpiryCount>(),     //
+        make_unique<ReadThreadNetworkDiagnosticsTxErrCcaCount>(),                       //
+        make_unique<ReportThreadNetworkDiagnosticsTxErrCcaCount>(),                     //
+        make_unique<ReadThreadNetworkDiagnosticsTxErrAbortCount>(),                     //
+        make_unique<ReportThreadNetworkDiagnosticsTxErrAbortCount>(),                   //
+        make_unique<ReadThreadNetworkDiagnosticsTxErrBusyChannelCount>(),               //
+        make_unique<ReportThreadNetworkDiagnosticsTxErrBusyChannelCount>(),             //
+        make_unique<ReadThreadNetworkDiagnosticsRxTotalCount>(),                        //
+        make_unique<ReportThreadNetworkDiagnosticsRxTotalCount>(),                      //
+        make_unique<ReadThreadNetworkDiagnosticsRxUnicastCount>(),                      //
+        make_unique<ReportThreadNetworkDiagnosticsRxUnicastCount>(),                    //
+        make_unique<ReadThreadNetworkDiagnosticsRxBroadcastCount>(),                    //
+        make_unique<ReportThreadNetworkDiagnosticsRxBroadcastCount>(),                  //
+        make_unique<ReadThreadNetworkDiagnosticsRxDataCount>(),                         //
+        make_unique<ReportThreadNetworkDiagnosticsRxDataCount>(),                       //
+        make_unique<ReadThreadNetworkDiagnosticsRxDataPollCount>(),                     //
+        make_unique<ReportThreadNetworkDiagnosticsRxDataPollCount>(),                   //
+        make_unique<ReadThreadNetworkDiagnosticsRxBeaconCount>(),                       //
+        make_unique<ReportThreadNetworkDiagnosticsRxBeaconCount>(),                     //
+        make_unique<ReadThreadNetworkDiagnosticsRxBeaconRequestCount>(),                //
+        make_unique<ReportThreadNetworkDiagnosticsRxBeaconRequestCount>(),              //
+        make_unique<ReadThreadNetworkDiagnosticsRxOtherCount>(),                        //
+        make_unique<ReportThreadNetworkDiagnosticsRxOtherCount>(),                      //
+        make_unique<ReadThreadNetworkDiagnosticsRxAddressFilteredCount>(),              //
+        make_unique<ReportThreadNetworkDiagnosticsRxAddressFilteredCount>(),            //
+        make_unique<ReadThreadNetworkDiagnosticsRxDestAddrFilteredCount>(),             //
+        make_unique<ReportThreadNetworkDiagnosticsRxDestAddrFilteredCount>(),           //
+        make_unique<ReadThreadNetworkDiagnosticsRxDuplicatedCount>(),                   //
+        make_unique<ReportThreadNetworkDiagnosticsRxDuplicatedCount>(),                 //
+        make_unique<ReadThreadNetworkDiagnosticsRxErrNoFrameCount>(),                   //
+        make_unique<ReportThreadNetworkDiagnosticsRxErrNoFrameCount>(),                 //
+        make_unique<ReadThreadNetworkDiagnosticsRxErrUnknownNeighborCount>(),           //
+        make_unique<ReportThreadNetworkDiagnosticsRxErrUnknownNeighborCount>(),         //
+        make_unique<ReadThreadNetworkDiagnosticsRxErrInvalidSrcAddrCount>(),            //
+        make_unique<ReportThreadNetworkDiagnosticsRxErrInvalidSrcAddrCount>(),          //
+        make_unique<ReadThreadNetworkDiagnosticsRxErrSecCount>(),                       //
+        make_unique<ReportThreadNetworkDiagnosticsRxErrSecCount>(),                     //
+        make_unique<ReadThreadNetworkDiagnosticsRxErrFcsCount>(),                       //
+        make_unique<ReportThreadNetworkDiagnosticsRxErrFcsCount>(),                     //
+        make_unique<ReadThreadNetworkDiagnosticsRxErrOtherCount>(),                     //
+        make_unique<ReportThreadNetworkDiagnosticsRxErrOtherCount>(),                   //
+        make_unique<ReadThreadNetworkDiagnosticsActiveTimestamp>(),                     //
+        make_unique<ReportThreadNetworkDiagnosticsActiveTimestamp>(),                   //
+        make_unique<ReadThreadNetworkDiagnosticsPendingTimestamp>(),                    //
+        make_unique<ReportThreadNetworkDiagnosticsPendingTimestamp>(),                  //
+        make_unique<ReadThreadNetworkDiagnosticsDelay>(),                               //
+        make_unique<ReportThreadNetworkDiagnosticsDelay>(),                             //
+        make_unique<ReadThreadNetworkDiagnosticsSecurityPolicy>(),                      //
+        make_unique<ReadThreadNetworkDiagnosticsChannelMask>(),                         //
+        make_unique<ReportThreadNetworkDiagnosticsChannelMask>(),                       //
+        make_unique<ReadThreadNetworkDiagnosticsOperationalDatasetComponents>(),        //
+        make_unique<ReadThreadNetworkDiagnosticsActiveNetworkFaultsList>(),             //
+        make_unique<ReadThreadNetworkDiagnosticsClusterRevision>(),                     //
+        make_unique<ReportThreadNetworkDiagnosticsClusterRevision>(),                   //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -31194,8 +52838,10 @@ void registerClusterWakeOnLan(Commands & commands)
     const char * clusterName = "WakeOnLan";
 
     commands_list clusterCommands = {
-        make_unique<ReadWakeOnLanWakeOnLanMacAddress>(), //
-        make_unique<ReadWakeOnLanClusterRevision>(),     //
+        make_unique<ReadWakeOnLanWakeOnLanMacAddress>(),   //
+        make_unique<ReportWakeOnLanWakeOnLanMacAddress>(), //
+        make_unique<ReadWakeOnLanClusterRevision>(),       //
+        make_unique<ReportWakeOnLanClusterRevision>(),     //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -31205,21 +52851,35 @@ void registerClusterWiFiNetworkDiagnostics(Commands & commands)
     const char * clusterName = "WiFiNetworkDiagnostics";
 
     commands_list clusterCommands = {
-        make_unique<WiFiNetworkDiagnosticsResetCounts>(),                //
-        make_unique<ReadWiFiNetworkDiagnosticsBssid>(),                  //
-        make_unique<ReadWiFiNetworkDiagnosticsSecurityType>(),           //
-        make_unique<ReadWiFiNetworkDiagnosticsWiFiVersion>(),            //
-        make_unique<ReadWiFiNetworkDiagnosticsChannelNumber>(),          //
-        make_unique<ReadWiFiNetworkDiagnosticsRssi>(),                   //
-        make_unique<ReadWiFiNetworkDiagnosticsBeaconLostCount>(),        //
-        make_unique<ReadWiFiNetworkDiagnosticsBeaconRxCount>(),          //
-        make_unique<ReadWiFiNetworkDiagnosticsPacketMulticastRxCount>(), //
-        make_unique<ReadWiFiNetworkDiagnosticsPacketMulticastTxCount>(), //
-        make_unique<ReadWiFiNetworkDiagnosticsPacketUnicastRxCount>(),   //
-        make_unique<ReadWiFiNetworkDiagnosticsPacketUnicastTxCount>(),   //
-        make_unique<ReadWiFiNetworkDiagnosticsCurrentMaxRate>(),         //
-        make_unique<ReadWiFiNetworkDiagnosticsOverrunCount>(),           //
-        make_unique<ReadWiFiNetworkDiagnosticsClusterRevision>(),        //
+        make_unique<WiFiNetworkDiagnosticsResetCounts>(),                  //
+        make_unique<ReadWiFiNetworkDiagnosticsBssid>(),                    //
+        make_unique<ReportWiFiNetworkDiagnosticsBssid>(),                  //
+        make_unique<ReadWiFiNetworkDiagnosticsSecurityType>(),             //
+        make_unique<ReportWiFiNetworkDiagnosticsSecurityType>(),           //
+        make_unique<ReadWiFiNetworkDiagnosticsWiFiVersion>(),              //
+        make_unique<ReportWiFiNetworkDiagnosticsWiFiVersion>(),            //
+        make_unique<ReadWiFiNetworkDiagnosticsChannelNumber>(),            //
+        make_unique<ReportWiFiNetworkDiagnosticsChannelNumber>(),          //
+        make_unique<ReadWiFiNetworkDiagnosticsRssi>(),                     //
+        make_unique<ReportWiFiNetworkDiagnosticsRssi>(),                   //
+        make_unique<ReadWiFiNetworkDiagnosticsBeaconLostCount>(),          //
+        make_unique<ReportWiFiNetworkDiagnosticsBeaconLostCount>(),        //
+        make_unique<ReadWiFiNetworkDiagnosticsBeaconRxCount>(),            //
+        make_unique<ReportWiFiNetworkDiagnosticsBeaconRxCount>(),          //
+        make_unique<ReadWiFiNetworkDiagnosticsPacketMulticastRxCount>(),   //
+        make_unique<ReportWiFiNetworkDiagnosticsPacketMulticastRxCount>(), //
+        make_unique<ReadWiFiNetworkDiagnosticsPacketMulticastTxCount>(),   //
+        make_unique<ReportWiFiNetworkDiagnosticsPacketMulticastTxCount>(), //
+        make_unique<ReadWiFiNetworkDiagnosticsPacketUnicastRxCount>(),     //
+        make_unique<ReportWiFiNetworkDiagnosticsPacketUnicastRxCount>(),   //
+        make_unique<ReadWiFiNetworkDiagnosticsPacketUnicastTxCount>(),     //
+        make_unique<ReportWiFiNetworkDiagnosticsPacketUnicastTxCount>(),   //
+        make_unique<ReadWiFiNetworkDiagnosticsCurrentMaxRate>(),           //
+        make_unique<ReportWiFiNetworkDiagnosticsCurrentMaxRate>(),         //
+        make_unique<ReadWiFiNetworkDiagnosticsOverrunCount>(),             //
+        make_unique<ReportWiFiNetworkDiagnosticsOverrunCount>(),           //
+        make_unique<ReadWiFiNetworkDiagnosticsClusterRevision>(),          //
+        make_unique<ReportWiFiNetworkDiagnosticsClusterRevision>(),        //
     };
 
     commands.Register(clusterName, clusterCommands);
@@ -31237,9 +52897,13 @@ void registerClusterWindowCovering(Commands & commands)
         make_unique<WindowCoveringStopMotion>(),                             //
         make_unique<WindowCoveringUpOrOpen>(),                               //
         make_unique<ReadWindowCoveringType>(),                               //
+        make_unique<ReportWindowCoveringType>(),                             //
         make_unique<ReadWindowCoveringCurrentPositionLift>(),                //
+        make_unique<ReportWindowCoveringCurrentPositionLift>(),              //
         make_unique<ReadWindowCoveringCurrentPositionTilt>(),                //
+        make_unique<ReportWindowCoveringCurrentPositionTilt>(),              //
         make_unique<ReadWindowCoveringConfigStatus>(),                       //
+        make_unique<ReportWindowCoveringConfigStatus>(),                     //
         make_unique<ReadWindowCoveringCurrentPositionLiftPercentage>(),      //
         make_unique<ReportWindowCoveringCurrentPositionLiftPercentage>(),    //
         make_unique<ReadWindowCoveringCurrentPositionTiltPercentage>(),      //
@@ -31251,20 +52915,28 @@ void registerClusterWindowCovering(Commands & commands)
         make_unique<ReadWindowCoveringTargetPositionTiltPercent100ths>(),    //
         make_unique<ReportWindowCoveringTargetPositionTiltPercent100ths>(),  //
         make_unique<ReadWindowCoveringEndProductType>(),                     //
+        make_unique<ReportWindowCoveringEndProductType>(),                   //
         make_unique<ReadWindowCoveringCurrentPositionLiftPercent100ths>(),   //
         make_unique<ReportWindowCoveringCurrentPositionLiftPercent100ths>(), //
         make_unique<ReadWindowCoveringCurrentPositionTiltPercent100ths>(),   //
         make_unique<ReportWindowCoveringCurrentPositionTiltPercent100ths>(), //
         make_unique<ReadWindowCoveringInstalledOpenLimitLift>(),             //
+        make_unique<ReportWindowCoveringInstalledOpenLimitLift>(),           //
         make_unique<ReadWindowCoveringInstalledClosedLimitLift>(),           //
+        make_unique<ReportWindowCoveringInstalledClosedLimitLift>(),         //
         make_unique<ReadWindowCoveringInstalledOpenLimitTilt>(),             //
+        make_unique<ReportWindowCoveringInstalledOpenLimitTilt>(),           //
         make_unique<ReadWindowCoveringInstalledClosedLimitTilt>(),           //
+        make_unique<ReportWindowCoveringInstalledClosedLimitTilt>(),         //
         make_unique<ReadWindowCoveringMode>(),                               //
         make_unique<WriteWindowCoveringMode>(),                              //
+        make_unique<ReportWindowCoveringMode>(),                             //
         make_unique<ReadWindowCoveringSafetyStatus>(),                       //
         make_unique<ReportWindowCoveringSafetyStatus>(),                     //
         make_unique<ReadWindowCoveringFeatureMap>(),                         //
+        make_unique<ReportWindowCoveringFeatureMap>(),                       //
         make_unique<ReadWindowCoveringClusterRevision>(),                    //
+        make_unique<ReportWindowCoveringClusterRevision>(),                  //
     };
 
     commands.Register(clusterName, clusterCommands);
diff --git a/zzz_generated/chip-tool/zap-generated/reporting/Commands.h b/zzz_generated/chip-tool/zap-generated/reporting/Commands.h
index 651e3296aa924d..f22c16ea93a7bd 100644
--- a/zzz_generated/chip-tool/zap-generated/reporting/Commands.h
+++ b/zzz_generated/chip-tool/zap-generated/reporting/Commands.h
@@ -30,122 +30,1579 @@ class Listen : public ReportingCommand
 
     ~Listen()
     {
+        delete onReportAccountLoginClusterRevisionCallback;
+        delete onReportAdministratorCommissioningClusterRevisionCallback;
+        delete onReportApplicationBasicVendorNameCallback;
+        delete onReportApplicationBasicVendorIdCallback;
+        delete onReportApplicationBasicApplicationNameCallback;
+        delete onReportApplicationBasicProductIdCallback;
+        delete onReportApplicationBasicApplicationIdCallback;
+        delete onReportApplicationBasicCatalogVendorIdCallback;
+        delete onReportApplicationBasicApplicationStatusCallback;
+        delete onReportApplicationBasicClusterRevisionCallback;
+        delete onReportApplicationLauncherCatalogVendorIdCallback;
+        delete onReportApplicationLauncherApplicationIdCallback;
+        delete onReportApplicationLauncherClusterRevisionCallback;
+        delete onReportAudioOutputCurrentAudioOutputCallback;
+        delete onReportAudioOutputClusterRevisionCallback;
+        delete onReportBarrierControlBarrierMovingStateCallback;
+        delete onReportBarrierControlBarrierSafetyStatusCallback;
+        delete onReportBarrierControlBarrierCapabilitiesCallback;
+        delete onReportBarrierControlBarrierPositionCallback;
+        delete onReportBarrierControlClusterRevisionCallback;
+        delete onReportBasicInteractionModelVersionCallback;
+        delete onReportBasicVendorNameCallback;
+        delete onReportBasicVendorIDCallback;
+        delete onReportBasicProductNameCallback;
+        delete onReportBasicProductIDCallback;
+        delete onReportBasicUserLabelCallback;
+        delete onReportBasicLocationCallback;
+        delete onReportBasicHardwareVersionCallback;
+        delete onReportBasicHardwareVersionStringCallback;
+        delete onReportBasicSoftwareVersionCallback;
+        delete onReportBasicSoftwareVersionStringCallback;
+        delete onReportBasicManufacturingDateCallback;
+        delete onReportBasicPartNumberCallback;
+        delete onReportBasicProductURLCallback;
+        delete onReportBasicProductLabelCallback;
+        delete onReportBasicSerialNumberCallback;
+        delete onReportBasicLocalConfigDisabledCallback;
+        delete onReportBasicReachableCallback;
+        delete onReportBasicClusterRevisionCallback;
+        delete onReportBinaryInputBasicOutOfServiceCallback;
         delete onReportBinaryInputBasicPresentValueCallback;
         delete onReportBinaryInputBasicStatusFlagsCallback;
+        delete onReportBinaryInputBasicClusterRevisionCallback;
+        delete onReportBindingClusterRevisionCallback;
         delete onReportBooleanStateStateValueCallback;
+        delete onReportBooleanStateClusterRevisionCallback;
+        delete onReportBridgedActionsSetupUrlCallback;
+        delete onReportBridgedActionsClusterRevisionCallback;
+        delete onReportBridgedDeviceBasicInformationClusterRevisionCallback;
         delete onReportColorControlCurrentHueCallback;
         delete onReportColorControlCurrentSaturationCallback;
+        delete onReportColorControlRemainingTimeCallback;
         delete onReportColorControlCurrentXCallback;
         delete onReportColorControlCurrentYCallback;
+        delete onReportColorControlDriftCompensationCallback;
+        delete onReportColorControlCompensationTextCallback;
         delete onReportColorControlColorTemperatureCallback;
+        delete onReportColorControlColorModeCallback;
+        delete onReportColorControlColorControlOptionsCallback;
+        delete onReportColorControlNumberOfPrimariesCallback;
+        delete onReportColorControlPrimary1XCallback;
+        delete onReportColorControlPrimary1YCallback;
+        delete onReportColorControlPrimary1IntensityCallback;
+        delete onReportColorControlPrimary2XCallback;
+        delete onReportColorControlPrimary2YCallback;
+        delete onReportColorControlPrimary2IntensityCallback;
+        delete onReportColorControlPrimary3XCallback;
+        delete onReportColorControlPrimary3YCallback;
+        delete onReportColorControlPrimary3IntensityCallback;
+        delete onReportColorControlPrimary4XCallback;
+        delete onReportColorControlPrimary4YCallback;
+        delete onReportColorControlPrimary4IntensityCallback;
+        delete onReportColorControlPrimary5XCallback;
+        delete onReportColorControlPrimary5YCallback;
+        delete onReportColorControlPrimary5IntensityCallback;
+        delete onReportColorControlPrimary6XCallback;
+        delete onReportColorControlPrimary6YCallback;
+        delete onReportColorControlPrimary6IntensityCallback;
+        delete onReportColorControlWhitePointXCallback;
+        delete onReportColorControlWhitePointYCallback;
+        delete onReportColorControlColorPointRXCallback;
+        delete onReportColorControlColorPointRYCallback;
+        delete onReportColorControlColorPointRIntensityCallback;
+        delete onReportColorControlColorPointGXCallback;
+        delete onReportColorControlColorPointGYCallback;
+        delete onReportColorControlColorPointGIntensityCallback;
+        delete onReportColorControlColorPointBXCallback;
+        delete onReportColorControlColorPointBYCallback;
+        delete onReportColorControlColorPointBIntensityCallback;
+        delete onReportColorControlEnhancedCurrentHueCallback;
+        delete onReportColorControlEnhancedColorModeCallback;
+        delete onReportColorControlColorLoopActiveCallback;
+        delete onReportColorControlColorLoopDirectionCallback;
+        delete onReportColorControlColorLoopTimeCallback;
+        delete onReportColorControlColorLoopStartEnhancedHueCallback;
+        delete onReportColorControlColorLoopStoredEnhancedHueCallback;
+        delete onReportColorControlColorCapabilitiesCallback;
+        delete onReportColorControlColorTempPhysicalMinCallback;
+        delete onReportColorControlColorTempPhysicalMaxCallback;
+        delete onReportColorControlCoupleColorTempToLevelMinMiredsCallback;
+        delete onReportColorControlStartUpColorTemperatureMiredsCallback;
+        delete onReportColorControlClusterRevisionCallback;
+        delete onReportContentLauncherClusterRevisionCallback;
+        delete onReportDescriptorClusterRevisionCallback;
         delete onReportDoorLockLockStateCallback;
+        delete onReportDoorLockLockTypeCallback;
+        delete onReportDoorLockActuatorEnabledCallback;
+        delete onReportDoorLockClusterRevisionCallback;
+        delete onReportElectricalMeasurementMeasurementTypeCallback;
+        delete onReportElectricalMeasurementTotalActivePowerCallback;
+        delete onReportElectricalMeasurementRmsVoltageCallback;
+        delete onReportElectricalMeasurementRmsVoltageMinCallback;
+        delete onReportElectricalMeasurementRmsVoltageMaxCallback;
+        delete onReportElectricalMeasurementRmsCurrentCallback;
+        delete onReportElectricalMeasurementRmsCurrentMinCallback;
+        delete onReportElectricalMeasurementRmsCurrentMaxCallback;
+        delete onReportElectricalMeasurementActivePowerCallback;
+        delete onReportElectricalMeasurementActivePowerMinCallback;
+        delete onReportElectricalMeasurementActivePowerMaxCallback;
+        delete onReportElectricalMeasurementClusterRevisionCallback;
+        delete onReportEthernetNetworkDiagnosticsPHYRateCallback;
+        delete onReportEthernetNetworkDiagnosticsFullDuplexCallback;
+        delete onReportEthernetNetworkDiagnosticsPacketRxCountCallback;
+        delete onReportEthernetNetworkDiagnosticsPacketTxCountCallback;
+        delete onReportEthernetNetworkDiagnosticsTxErrCountCallback;
+        delete onReportEthernetNetworkDiagnosticsCollisionCountCallback;
+        delete onReportEthernetNetworkDiagnosticsOverrunCountCallback;
+        delete onReportEthernetNetworkDiagnosticsCarrierDetectCallback;
+        delete onReportEthernetNetworkDiagnosticsTimeSinceResetCallback;
+        delete onReportEthernetNetworkDiagnosticsClusterRevisionCallback;
+        delete onReportFixedLabelClusterRevisionCallback;
+        delete onReportFlowMeasurementMeasuredValueCallback;
+        delete onReportFlowMeasurementMinMeasuredValueCallback;
+        delete onReportFlowMeasurementMaxMeasuredValueCallback;
+        delete onReportFlowMeasurementToleranceCallback;
+        delete onReportFlowMeasurementClusterRevisionCallback;
+        delete onReportGeneralCommissioningBreadcrumbCallback;
+        delete onReportGeneralCommissioningClusterRevisionCallback;
+        delete onReportGeneralDiagnosticsRebootCountCallback;
+        delete onReportGeneralDiagnosticsUpTimeCallback;
+        delete onReportGeneralDiagnosticsTotalOperationalHoursCallback;
+        delete onReportGeneralDiagnosticsBootReasonsCallback;
+        delete onReportGeneralDiagnosticsClusterRevisionCallback;
+        delete onReportGroupKeyManagementClusterRevisionCallback;
+        delete onReportGroupsNameSupportCallback;
+        delete onReportGroupsClusterRevisionCallback;
+        delete onReportIdentifyIdentifyTimeCallback;
+        delete onReportIdentifyIdentifyTypeCallback;
+        delete onReportIdentifyClusterRevisionCallback;
         delete onReportIlluminanceMeasurementMeasuredValueCallback;
+        delete onReportIlluminanceMeasurementMinMeasuredValueCallback;
+        delete onReportIlluminanceMeasurementMaxMeasuredValueCallback;
+        delete onReportIlluminanceMeasurementToleranceCallback;
+        delete onReportIlluminanceMeasurementLightSensorTypeCallback;
+        delete onReportIlluminanceMeasurementClusterRevisionCallback;
+        delete onReportKeypadInputClusterRevisionCallback;
         delete onReportLevelControlCurrentLevelCallback;
+        delete onReportLevelControlRemainingTimeCallback;
+        delete onReportLevelControlMinLevelCallback;
+        delete onReportLevelControlMaxLevelCallback;
+        delete onReportLevelControlCurrentFrequencyCallback;
+        delete onReportLevelControlMinFrequencyCallback;
+        delete onReportLevelControlMaxFrequencyCallback;
+        delete onReportLevelControlOptionsCallback;
+        delete onReportLevelControlOnOffTransitionTimeCallback;
+        delete onReportLevelControlOnLevelCallback;
+        delete onReportLevelControlOnTransitionTimeCallback;
+        delete onReportLevelControlOffTransitionTimeCallback;
+        delete onReportLevelControlDefaultMoveRateCallback;
+        delete onReportLevelControlStartUpCurrentLevelCallback;
+        delete onReportLevelControlClusterRevisionCallback;
+        delete onReportLowPowerClusterRevisionCallback;
+        delete onReportMediaInputCurrentMediaInputCallback;
+        delete onReportMediaInputClusterRevisionCallback;
+        delete onReportMediaPlaybackPlaybackStateCallback;
+        delete onReportMediaPlaybackStartTimeCallback;
+        delete onReportMediaPlaybackDurationCallback;
+        delete onReportMediaPlaybackPositionUpdatedAtCallback;
+        delete onReportMediaPlaybackPositionCallback;
+        delete onReportMediaPlaybackPlaybackSpeedCallback;
+        delete onReportMediaPlaybackSeekRangeEndCallback;
+        delete onReportMediaPlaybackSeekRangeStartCallback;
+        delete onReportMediaPlaybackClusterRevisionCallback;
         delete onReportModeSelectCurrentModeCallback;
+        delete onReportModeSelectOnModeCallback;
+        delete onReportModeSelectStartUpModeCallback;
+        delete onReportModeSelectDescriptionCallback;
+        delete onReportModeSelectClusterRevisionCallback;
+        delete onReportNetworkCommissioningFeatureMapCallback;
+        delete onReportNetworkCommissioningClusterRevisionCallback;
+        delete onReportOtaSoftwareUpdateProviderClusterRevisionCallback;
+        delete onReportOtaSoftwareUpdateRequestorDefaultOtaProviderCallback;
+        delete onReportOtaSoftwareUpdateRequestorUpdatePossibleCallback;
+        delete onReportOtaSoftwareUpdateRequestorClusterRevisionCallback;
         delete onReportOccupancySensingOccupancyCallback;
+        delete onReportOccupancySensingOccupancySensorTypeCallback;
+        delete onReportOccupancySensingOccupancySensorTypeBitmapCallback;
+        delete onReportOccupancySensingClusterRevisionCallback;
         delete onReportOnOffOnOffCallback;
+        delete onReportOnOffGlobalSceneControlCallback;
+        delete onReportOnOffOnTimeCallback;
+        delete onReportOnOffOffWaitTimeCallback;
+        delete onReportOnOffStartUpOnOffCallback;
+        delete onReportOnOffFeatureMapCallback;
+        delete onReportOnOffClusterRevisionCallback;
+        delete onReportOnOffSwitchConfigurationSwitchTypeCallback;
+        delete onReportOnOffSwitchConfigurationSwitchActionsCallback;
+        delete onReportOnOffSwitchConfigurationClusterRevisionCallback;
+        delete onReportOperationalCredentialsSupportedFabricsCallback;
+        delete onReportOperationalCredentialsCommissionedFabricsCallback;
+        delete onReportOperationalCredentialsCurrentFabricIndexCallback;
+        delete onReportOperationalCredentialsClusterRevisionCallback;
+        delete onReportPowerSourceStatusCallback;
+        delete onReportPowerSourceOrderCallback;
+        delete onReportPowerSourceDescriptionCallback;
+        delete onReportPowerSourceBatteryVoltageCallback;
+        delete onReportPowerSourceBatteryPercentRemainingCallback;
+        delete onReportPowerSourceBatteryTimeRemainingCallback;
+        delete onReportPowerSourceBatteryChargeLevelCallback;
+        delete onReportPowerSourceBatteryChargeStateCallback;
+        delete onReportPowerSourceFeatureMapCallback;
+        delete onReportPowerSourceClusterRevisionCallback;
         delete onReportPressureMeasurementMeasuredValueCallback;
+        delete onReportPressureMeasurementMinMeasuredValueCallback;
+        delete onReportPressureMeasurementMaxMeasuredValueCallback;
+        delete onReportPressureMeasurementClusterRevisionCallback;
+        delete onReportPumpConfigurationAndControlMaxPressureCallback;
+        delete onReportPumpConfigurationAndControlMaxSpeedCallback;
+        delete onReportPumpConfigurationAndControlMaxFlowCallback;
+        delete onReportPumpConfigurationAndControlMinConstPressureCallback;
+        delete onReportPumpConfigurationAndControlMaxConstPressureCallback;
+        delete onReportPumpConfigurationAndControlMinCompPressureCallback;
+        delete onReportPumpConfigurationAndControlMaxCompPressureCallback;
+        delete onReportPumpConfigurationAndControlMinConstSpeedCallback;
+        delete onReportPumpConfigurationAndControlMaxConstSpeedCallback;
+        delete onReportPumpConfigurationAndControlMinConstFlowCallback;
+        delete onReportPumpConfigurationAndControlMaxConstFlowCallback;
+        delete onReportPumpConfigurationAndControlMinConstTempCallback;
+        delete onReportPumpConfigurationAndControlMaxConstTempCallback;
         delete onReportPumpConfigurationAndControlPumpStatusCallback;
+        delete onReportPumpConfigurationAndControlEffectiveOperationModeCallback;
+        delete onReportPumpConfigurationAndControlEffectiveControlModeCallback;
         delete onReportPumpConfigurationAndControlCapacityCallback;
+        delete onReportPumpConfigurationAndControlSpeedCallback;
+        delete onReportPumpConfigurationAndControlLifetimeEnergyConsumedCallback;
+        delete onReportPumpConfigurationAndControlOperationModeCallback;
+        delete onReportPumpConfigurationAndControlControlModeCallback;
+        delete onReportPumpConfigurationAndControlAlarmMaskCallback;
+        delete onReportPumpConfigurationAndControlFeatureMapCallback;
+        delete onReportPumpConfigurationAndControlClusterRevisionCallback;
         delete onReportRelativeHumidityMeasurementMeasuredValueCallback;
+        delete onReportRelativeHumidityMeasurementMinMeasuredValueCallback;
+        delete onReportRelativeHumidityMeasurementMaxMeasuredValueCallback;
         delete onReportRelativeHumidityMeasurementToleranceCallback;
+        delete onReportRelativeHumidityMeasurementClusterRevisionCallback;
+        delete onReportScenesSceneCountCallback;
+        delete onReportScenesCurrentSceneCallback;
+        delete onReportScenesCurrentGroupCallback;
+        delete onReportScenesSceneValidCallback;
+        delete onReportScenesNameSupportCallback;
+        delete onReportScenesClusterRevisionCallback;
+        delete onReportSoftwareDiagnosticsCurrentHeapFreeCallback;
+        delete onReportSoftwareDiagnosticsCurrentHeapUsedCallback;
+        delete onReportSoftwareDiagnosticsCurrentHeapHighWatermarkCallback;
+        delete onReportSoftwareDiagnosticsClusterRevisionCallback;
+        delete onReportSwitchNumberOfPositionsCallback;
         delete onReportSwitchCurrentPositionCallback;
+        delete onReportSwitchMultiPressMaxCallback;
+        delete onReportSwitchFeatureMapCallback;
+        delete onReportSwitchClusterRevisionCallback;
+        delete onReportTvChannelTvChannelLineupCallback;
+        delete onReportTvChannelCurrentTvChannelCallback;
+        delete onReportTvChannelClusterRevisionCallback;
+        delete onReportTargetNavigatorClusterRevisionCallback;
         delete onReportTemperatureMeasurementMeasuredValueCallback;
+        delete onReportTemperatureMeasurementMinMeasuredValueCallback;
+        delete onReportTemperatureMeasurementMaxMeasuredValueCallback;
         delete onReportTemperatureMeasurementToleranceCallback;
+        delete onReportTemperatureMeasurementClusterRevisionCallback;
+        delete onReportTestClusterBooleanCallback;
+        delete onReportTestClusterBitmap8Callback;
+        delete onReportTestClusterBitmap16Callback;
+        delete onReportTestClusterBitmap32Callback;
+        delete onReportTestClusterBitmap64Callback;
+        delete onReportTestClusterInt8uCallback;
+        delete onReportTestClusterInt16uCallback;
+        delete onReportTestClusterInt32uCallback;
+        delete onReportTestClusterInt64uCallback;
+        delete onReportTestClusterInt8sCallback;
+        delete onReportTestClusterInt16sCallback;
+        delete onReportTestClusterInt32sCallback;
+        delete onReportTestClusterInt64sCallback;
+        delete onReportTestClusterEnum8Callback;
+        delete onReportTestClusterEnum16Callback;
+        delete onReportTestClusterOctetStringCallback;
+        delete onReportTestClusterLongOctetStringCallback;
+        delete onReportTestClusterCharStringCallback;
+        delete onReportTestClusterLongCharStringCallback;
+        delete onReportTestClusterEpochUsCallback;
+        delete onReportTestClusterEpochSCallback;
+        delete onReportTestClusterVendorIdCallback;
+        delete onReportTestClusterUnsupportedCallback;
+        delete onReportTestClusterNullableBooleanCallback;
+        delete onReportTestClusterNullableBitmap8Callback;
+        delete onReportTestClusterNullableBitmap16Callback;
+        delete onReportTestClusterNullableBitmap32Callback;
+        delete onReportTestClusterNullableBitmap64Callback;
+        delete onReportTestClusterNullableInt8uCallback;
+        delete onReportTestClusterNullableInt16uCallback;
+        delete onReportTestClusterNullableInt32uCallback;
+        delete onReportTestClusterNullableInt64uCallback;
+        delete onReportTestClusterNullableInt8sCallback;
+        delete onReportTestClusterNullableInt16sCallback;
+        delete onReportTestClusterNullableInt32sCallback;
+        delete onReportTestClusterNullableInt64sCallback;
+        delete onReportTestClusterNullableEnum8Callback;
+        delete onReportTestClusterNullableEnum16Callback;
+        delete onReportTestClusterNullableOctetStringCallback;
+        delete onReportTestClusterNullableCharStringCallback;
+        delete onReportTestClusterClusterRevisionCallback;
         delete onReportThermostatLocalTemperatureCallback;
+        delete onReportThermostatAbsMinHeatSetpointLimitCallback;
+        delete onReportThermostatAbsMaxHeatSetpointLimitCallback;
+        delete onReportThermostatAbsMinCoolSetpointLimitCallback;
+        delete onReportThermostatAbsMaxCoolSetpointLimitCallback;
+        delete onReportThermostatOccupiedCoolingSetpointCallback;
+        delete onReportThermostatOccupiedHeatingSetpointCallback;
+        delete onReportThermostatMinHeatSetpointLimitCallback;
+        delete onReportThermostatMaxHeatSetpointLimitCallback;
+        delete onReportThermostatMinCoolSetpointLimitCallback;
+        delete onReportThermostatMaxCoolSetpointLimitCallback;
+        delete onReportThermostatMinSetpointDeadBandCallback;
+        delete onReportThermostatControlSequenceOfOperationCallback;
+        delete onReportThermostatSystemModeCallback;
+        delete onReportThermostatStartOfWeekCallback;
+        delete onReportThermostatNumberOfWeeklyTransitionsCallback;
+        delete onReportThermostatNumberOfDailyTransitionsCallback;
+        delete onReportThermostatFeatureMapCallback;
+        delete onReportThermostatClusterRevisionCallback;
+        delete onReportThermostatUserInterfaceConfigurationTemperatureDisplayModeCallback;
+        delete onReportThermostatUserInterfaceConfigurationKeypadLockoutCallback;
+        delete onReportThermostatUserInterfaceConfigurationScheduleProgrammingVisibilityCallback;
+        delete onReportThermostatUserInterfaceConfigurationClusterRevisionCallback;
+        delete onReportThreadNetworkDiagnosticsChannelCallback;
+        delete onReportThreadNetworkDiagnosticsRoutingRoleCallback;
+        delete onReportThreadNetworkDiagnosticsNetworkNameCallback;
+        delete onReportThreadNetworkDiagnosticsPanIdCallback;
+        delete onReportThreadNetworkDiagnosticsExtendedPanIdCallback;
+        delete onReportThreadNetworkDiagnosticsMeshLocalPrefixCallback;
+        delete onReportThreadNetworkDiagnosticsOverrunCountCallback;
+        delete onReportThreadNetworkDiagnosticsPartitionIdCallback;
+        delete onReportThreadNetworkDiagnosticsWeightingCallback;
+        delete onReportThreadNetworkDiagnosticsDataVersionCallback;
+        delete onReportThreadNetworkDiagnosticsStableDataVersionCallback;
+        delete onReportThreadNetworkDiagnosticsLeaderRouterIdCallback;
+        delete onReportThreadNetworkDiagnosticsDetachedRoleCountCallback;
+        delete onReportThreadNetworkDiagnosticsChildRoleCountCallback;
+        delete onReportThreadNetworkDiagnosticsRouterRoleCountCallback;
+        delete onReportThreadNetworkDiagnosticsLeaderRoleCountCallback;
+        delete onReportThreadNetworkDiagnosticsAttachAttemptCountCallback;
+        delete onReportThreadNetworkDiagnosticsPartitionIdChangeCountCallback;
+        delete onReportThreadNetworkDiagnosticsBetterPartitionAttachAttemptCountCallback;
+        delete onReportThreadNetworkDiagnosticsParentChangeCountCallback;
+        delete onReportThreadNetworkDiagnosticsTxTotalCountCallback;
+        delete onReportThreadNetworkDiagnosticsTxUnicastCountCallback;
+        delete onReportThreadNetworkDiagnosticsTxBroadcastCountCallback;
+        delete onReportThreadNetworkDiagnosticsTxAckRequestedCountCallback;
+        delete onReportThreadNetworkDiagnosticsTxAckedCountCallback;
+        delete onReportThreadNetworkDiagnosticsTxNoAckRequestedCountCallback;
+        delete onReportThreadNetworkDiagnosticsTxDataCountCallback;
+        delete onReportThreadNetworkDiagnosticsTxDataPollCountCallback;
+        delete onReportThreadNetworkDiagnosticsTxBeaconCountCallback;
+        delete onReportThreadNetworkDiagnosticsTxBeaconRequestCountCallback;
+        delete onReportThreadNetworkDiagnosticsTxOtherCountCallback;
+        delete onReportThreadNetworkDiagnosticsTxRetryCountCallback;
+        delete onReportThreadNetworkDiagnosticsTxDirectMaxRetryExpiryCountCallback;
+        delete onReportThreadNetworkDiagnosticsTxIndirectMaxRetryExpiryCountCallback;
+        delete onReportThreadNetworkDiagnosticsTxErrCcaCountCallback;
+        delete onReportThreadNetworkDiagnosticsTxErrAbortCountCallback;
+        delete onReportThreadNetworkDiagnosticsTxErrBusyChannelCountCallback;
+        delete onReportThreadNetworkDiagnosticsRxTotalCountCallback;
+        delete onReportThreadNetworkDiagnosticsRxUnicastCountCallback;
+        delete onReportThreadNetworkDiagnosticsRxBroadcastCountCallback;
+        delete onReportThreadNetworkDiagnosticsRxDataCountCallback;
+        delete onReportThreadNetworkDiagnosticsRxDataPollCountCallback;
+        delete onReportThreadNetworkDiagnosticsRxBeaconCountCallback;
+        delete onReportThreadNetworkDiagnosticsRxBeaconRequestCountCallback;
+        delete onReportThreadNetworkDiagnosticsRxOtherCountCallback;
+        delete onReportThreadNetworkDiagnosticsRxAddressFilteredCountCallback;
+        delete onReportThreadNetworkDiagnosticsRxDestAddrFilteredCountCallback;
+        delete onReportThreadNetworkDiagnosticsRxDuplicatedCountCallback;
+        delete onReportThreadNetworkDiagnosticsRxErrNoFrameCountCallback;
+        delete onReportThreadNetworkDiagnosticsRxErrUnknownNeighborCountCallback;
+        delete onReportThreadNetworkDiagnosticsRxErrInvalidSrcAddrCountCallback;
+        delete onReportThreadNetworkDiagnosticsRxErrSecCountCallback;
+        delete onReportThreadNetworkDiagnosticsRxErrFcsCountCallback;
+        delete onReportThreadNetworkDiagnosticsRxErrOtherCountCallback;
+        delete onReportThreadNetworkDiagnosticsActiveTimestampCallback;
+        delete onReportThreadNetworkDiagnosticsPendingTimestampCallback;
+        delete onReportThreadNetworkDiagnosticsDelayCallback;
+        delete onReportThreadNetworkDiagnosticsChannelMaskCallback;
+        delete onReportThreadNetworkDiagnosticsClusterRevisionCallback;
+        delete onReportWakeOnLanWakeOnLanMacAddressCallback;
+        delete onReportWakeOnLanClusterRevisionCallback;
+        delete onReportWiFiNetworkDiagnosticsBssidCallback;
+        delete onReportWiFiNetworkDiagnosticsSecurityTypeCallback;
+        delete onReportWiFiNetworkDiagnosticsWiFiVersionCallback;
+        delete onReportWiFiNetworkDiagnosticsChannelNumberCallback;
+        delete onReportWiFiNetworkDiagnosticsRssiCallback;
+        delete onReportWiFiNetworkDiagnosticsBeaconLostCountCallback;
+        delete onReportWiFiNetworkDiagnosticsBeaconRxCountCallback;
+        delete onReportWiFiNetworkDiagnosticsPacketMulticastRxCountCallback;
+        delete onReportWiFiNetworkDiagnosticsPacketMulticastTxCountCallback;
+        delete onReportWiFiNetworkDiagnosticsPacketUnicastRxCountCallback;
+        delete onReportWiFiNetworkDiagnosticsPacketUnicastTxCountCallback;
+        delete onReportWiFiNetworkDiagnosticsCurrentMaxRateCallback;
+        delete onReportWiFiNetworkDiagnosticsOverrunCountCallback;
+        delete onReportWiFiNetworkDiagnosticsClusterRevisionCallback;
+        delete onReportWindowCoveringTypeCallback;
+        delete onReportWindowCoveringCurrentPositionLiftCallback;
+        delete onReportWindowCoveringCurrentPositionTiltCallback;
+        delete onReportWindowCoveringConfigStatusCallback;
         delete onReportWindowCoveringCurrentPositionLiftPercentageCallback;
         delete onReportWindowCoveringCurrentPositionTiltPercentageCallback;
         delete onReportWindowCoveringOperationalStatusCallback;
         delete onReportWindowCoveringTargetPositionLiftPercent100thsCallback;
         delete onReportWindowCoveringTargetPositionTiltPercent100thsCallback;
+        delete onReportWindowCoveringEndProductTypeCallback;
         delete onReportWindowCoveringCurrentPositionLiftPercent100thsCallback;
         delete onReportWindowCoveringCurrentPositionTiltPercent100thsCallback;
+        delete onReportWindowCoveringInstalledOpenLimitLiftCallback;
+        delete onReportWindowCoveringInstalledClosedLimitLiftCallback;
+        delete onReportWindowCoveringInstalledOpenLimitTiltCallback;
+        delete onReportWindowCoveringInstalledClosedLimitTiltCallback;
+        delete onReportWindowCoveringModeCallback;
         delete onReportWindowCoveringSafetyStatusCallback;
+        delete onReportWindowCoveringFeatureMapCallback;
+        delete onReportWindowCoveringClusterRevisionCallback;
     }
 
     void AddReportCallbacks(NodeId remoteId, uint8_t endpointId) override
     {
         chip::app::CHIPDeviceCallbacksMgr & callbacksMgr = chip::app::CHIPDeviceCallbacksMgr::GetInstance();
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050E, 0xFFFD, onReportAccountLoginClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x003C, 0xFFFD,
+                                       onReportAdministratorCommissioningClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050D, 0x0000, onReportApplicationBasicVendorNameCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050D, 0x0001, onReportApplicationBasicVendorIdCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050D, 0x0002,
+                                       onReportApplicationBasicApplicationNameCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050D, 0x0003, onReportApplicationBasicProductIdCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050D, 0x0005,
+                                       onReportApplicationBasicApplicationIdCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050D, 0x0006,
+                                       onReportApplicationBasicCatalogVendorIdCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050D, 0x0007,
+                                       onReportApplicationBasicApplicationStatusCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050D, 0xFFFD,
+                                       onReportApplicationBasicClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050C, 0x0001,
+                                       onReportApplicationLauncherCatalogVendorIdCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050C, 0x0002,
+                                       onReportApplicationLauncherApplicationIdCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050C, 0xFFFD,
+                                       onReportApplicationLauncherClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050B, 0x0001,
+                                       onReportAudioOutputCurrentAudioOutputCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050B, 0xFFFD, onReportAudioOutputClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0103, 0x0001,
+                                       onReportBarrierControlBarrierMovingStateCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0103, 0x0002,
+                                       onReportBarrierControlBarrierSafetyStatusCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0103, 0x0003,
+                                       onReportBarrierControlBarrierCapabilitiesCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0103, 0x000A,
+                                       onReportBarrierControlBarrierPositionCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0103, 0xFFFD,
+                                       onReportBarrierControlClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0028, 0x0000, onReportBasicInteractionModelVersionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0028, 0x0001, onReportBasicVendorNameCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0028, 0x0002, onReportBasicVendorIDCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0028, 0x0003, onReportBasicProductNameCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0028, 0x0004, onReportBasicProductIDCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0028, 0x0005, onReportBasicUserLabelCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0028, 0x0006, onReportBasicLocationCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0028, 0x0007, onReportBasicHardwareVersionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0028, 0x0008, onReportBasicHardwareVersionStringCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0028, 0x0009, onReportBasicSoftwareVersionCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0028, 0x000A, onReportBasicSoftwareVersionStringCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0028, 0x000B, onReportBasicManufacturingDateCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0028, 0x000C, onReportBasicPartNumberCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0028, 0x000D, onReportBasicProductURLCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0028, 0x000E, onReportBasicProductLabelCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0028, 0x000F, onReportBasicSerialNumberCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0028, 0x0010, onReportBasicLocalConfigDisabledCallback->Cancel(),
+                                       BasicAttributeFilter<BooleanAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0028, 0x0011, onReportBasicReachableCallback->Cancel(),
+                                       BasicAttributeFilter<BooleanAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0028, 0xFFFD, onReportBasicClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x000F, 0x0051, onReportBinaryInputBasicOutOfServiceCallback->Cancel(),
+                                       BasicAttributeFilter<BooleanAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x000F, 0x0055, onReportBinaryInputBasicPresentValueCallback->Cancel(),
                                        BasicAttributeFilter<BooleanAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x000F, 0x006F, onReportBinaryInputBasicStatusFlagsCallback->Cancel(),
                                        BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x000F, 0xFFFD,
+                                       onReportBinaryInputBasicClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0xF000, 0xFFFD, onReportBindingClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0045, 0x0000, onReportBooleanStateStateValueCallback->Cancel(),
                                        BasicAttributeFilter<BooleanAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0045, 0xFFFD, onReportBooleanStateClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0025, 0x0002, onReportBridgedActionsSetupUrlCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0025, 0xFFFD,
+                                       onReportBridgedActionsClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0039, 0xFFFD,
+                                       onReportBridgedDeviceBasicInformationClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0000, onReportColorControlCurrentHueCallback->Cancel(),
                                        BasicAttributeFilter<Int8uAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0001,
                                        onReportColorControlCurrentSaturationCallback->Cancel(),
                                        BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0002, onReportColorControlRemainingTimeCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0003, onReportColorControlCurrentXCallback->Cancel(),
                                        BasicAttributeFilter<Int16uAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0004, onReportColorControlCurrentYCallback->Cancel(),
                                        BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0005,
+                                       onReportColorControlDriftCompensationCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0006, onReportColorControlCompensationTextCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0007, onReportColorControlColorTemperatureCallback->Cancel(),
                                        BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0008, onReportColorControlColorModeCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x000F,
+                                       onReportColorControlColorControlOptionsCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0010,
+                                       onReportColorControlNumberOfPrimariesCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0011, onReportColorControlPrimary1XCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0012, onReportColorControlPrimary1YCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0013,
+                                       onReportColorControlPrimary1IntensityCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0015, onReportColorControlPrimary2XCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0016, onReportColorControlPrimary2YCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0017,
+                                       onReportColorControlPrimary2IntensityCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0019, onReportColorControlPrimary3XCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x001A, onReportColorControlPrimary3YCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x001B,
+                                       onReportColorControlPrimary3IntensityCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0020, onReportColorControlPrimary4XCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0021, onReportColorControlPrimary4YCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0022,
+                                       onReportColorControlPrimary4IntensityCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0024, onReportColorControlPrimary5XCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0025, onReportColorControlPrimary5YCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0026,
+                                       onReportColorControlPrimary5IntensityCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0028, onReportColorControlPrimary6XCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0029, onReportColorControlPrimary6YCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x002A,
+                                       onReportColorControlPrimary6IntensityCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0030, onReportColorControlWhitePointXCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0031, onReportColorControlWhitePointYCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0032, onReportColorControlColorPointRXCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0033, onReportColorControlColorPointRYCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0034,
+                                       onReportColorControlColorPointRIntensityCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0036, onReportColorControlColorPointGXCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0037, onReportColorControlColorPointGYCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x0038,
+                                       onReportColorControlColorPointGIntensityCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x003A, onReportColorControlColorPointBXCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x003B, onReportColorControlColorPointBYCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x003C,
+                                       onReportColorControlColorPointBIntensityCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x4000,
+                                       onReportColorControlEnhancedCurrentHueCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x4001,
+                                       onReportColorControlEnhancedColorModeCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x4002, onReportColorControlColorLoopActiveCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x4003,
+                                       onReportColorControlColorLoopDirectionCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x4004, onReportColorControlColorLoopTimeCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x4005,
+                                       onReportColorControlColorLoopStartEnhancedHueCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x4006,
+                                       onReportColorControlColorLoopStoredEnhancedHueCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x400A,
+                                       onReportColorControlColorCapabilitiesCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x400B,
+                                       onReportColorControlColorTempPhysicalMinCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x400C,
+                                       onReportColorControlColorTempPhysicalMaxCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x400D,
+                                       onReportColorControlCoupleColorTempToLevelMinMiredsCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0x4010,
+                                       onReportColorControlStartUpColorTemperatureMiredsCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0300, 0xFFFD, onReportColorControlClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050A, 0xFFFD,
+                                       onReportContentLauncherClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x001D, 0xFFFD, onReportDescriptorClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0101, 0x0000, onReportDoorLockLockStateCallback->Cancel(),
                                        BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0101, 0x0001, onReportDoorLockLockTypeCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0101, 0x0002, onReportDoorLockActuatorEnabledCallback->Cancel(),
+                                       BasicAttributeFilter<BooleanAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0101, 0xFFFD, onReportDoorLockClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0B04, 0x0000,
+                                       onReportElectricalMeasurementMeasurementTypeCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0B04, 0x0304,
+                                       onReportElectricalMeasurementTotalActivePowerCallback->Cancel(),
+                                       BasicAttributeFilter<Int32sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0B04, 0x0505,
+                                       onReportElectricalMeasurementRmsVoltageCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0B04, 0x0506,
+                                       onReportElectricalMeasurementRmsVoltageMinCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0B04, 0x0507,
+                                       onReportElectricalMeasurementRmsVoltageMaxCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0B04, 0x0508,
+                                       onReportElectricalMeasurementRmsCurrentCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0B04, 0x0509,
+                                       onReportElectricalMeasurementRmsCurrentMinCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0B04, 0x050A,
+                                       onReportElectricalMeasurementRmsCurrentMaxCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0B04, 0x050B,
+                                       onReportElectricalMeasurementActivePowerCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0B04, 0x050C,
+                                       onReportElectricalMeasurementActivePowerMinCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0B04, 0x050D,
+                                       onReportElectricalMeasurementActivePowerMaxCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0B04, 0xFFFD,
+                                       onReportElectricalMeasurementClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0037, 0x0000,
+                                       onReportEthernetNetworkDiagnosticsPHYRateCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0037, 0x0001,
+                                       onReportEthernetNetworkDiagnosticsFullDuplexCallback->Cancel(),
+                                       BasicAttributeFilter<BooleanAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0037, 0x0002,
+                                       onReportEthernetNetworkDiagnosticsPacketRxCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0037, 0x0003,
+                                       onReportEthernetNetworkDiagnosticsPacketTxCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0037, 0x0004,
+                                       onReportEthernetNetworkDiagnosticsTxErrCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0037, 0x0005,
+                                       onReportEthernetNetworkDiagnosticsCollisionCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0037, 0x0006,
+                                       onReportEthernetNetworkDiagnosticsOverrunCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0037, 0x0007,
+                                       onReportEthernetNetworkDiagnosticsCarrierDetectCallback->Cancel(),
+                                       BasicAttributeFilter<BooleanAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0037, 0x0008,
+                                       onReportEthernetNetworkDiagnosticsTimeSinceResetCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0037, 0xFFFD,
+                                       onReportEthernetNetworkDiagnosticsClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0040, 0xFFFD, onReportFixedLabelClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0404, 0x0000, onReportFlowMeasurementMeasuredValueCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0404, 0x0001,
+                                       onReportFlowMeasurementMinMeasuredValueCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0404, 0x0002,
+                                       onReportFlowMeasurementMaxMeasuredValueCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0404, 0x0003, onReportFlowMeasurementToleranceCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0404, 0xFFFD,
+                                       onReportFlowMeasurementClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0030, 0x0000,
+                                       onReportGeneralCommissioningBreadcrumbCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0030, 0xFFFD,
+                                       onReportGeneralCommissioningClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0033, 0x0001,
+                                       onReportGeneralDiagnosticsRebootCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0033, 0x0002, onReportGeneralDiagnosticsUpTimeCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0033, 0x0003,
+                                       onReportGeneralDiagnosticsTotalOperationalHoursCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0033, 0x0004,
+                                       onReportGeneralDiagnosticsBootReasonsCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0033, 0xFFFD,
+                                       onReportGeneralDiagnosticsClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0xF004, 0xFFFD,
+                                       onReportGroupKeyManagementClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0004, 0x0000, onReportGroupsNameSupportCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0004, 0xFFFD, onReportGroupsClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0003, 0x0000, onReportIdentifyIdentifyTimeCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0003, 0x0001, onReportIdentifyIdentifyTypeCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0003, 0xFFFD, onReportIdentifyClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0400, 0x0000,
                                        onReportIlluminanceMeasurementMeasuredValueCallback->Cancel(),
                                        BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0400, 0x0001,
+                                       onReportIlluminanceMeasurementMinMeasuredValueCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0400, 0x0002,
+                                       onReportIlluminanceMeasurementMaxMeasuredValueCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0400, 0x0003,
+                                       onReportIlluminanceMeasurementToleranceCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0400, 0x0004,
+                                       onReportIlluminanceMeasurementLightSensorTypeCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0400, 0xFFFD,
+                                       onReportIlluminanceMeasurementClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0509, 0xFFFD, onReportKeypadInputClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0008, 0x0000, onReportLevelControlCurrentLevelCallback->Cancel(),
                                        BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0008, 0x0001, onReportLevelControlRemainingTimeCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0008, 0x0002, onReportLevelControlMinLevelCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0008, 0x0003, onReportLevelControlMaxLevelCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0008, 0x0004, onReportLevelControlCurrentFrequencyCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0008, 0x0005, onReportLevelControlMinFrequencyCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0008, 0x0006, onReportLevelControlMaxFrequencyCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0008, 0x000F, onReportLevelControlOptionsCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0008, 0x0010,
+                                       onReportLevelControlOnOffTransitionTimeCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0008, 0x0011, onReportLevelControlOnLevelCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0008, 0x0012, onReportLevelControlOnTransitionTimeCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0008, 0x0013,
+                                       onReportLevelControlOffTransitionTimeCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0008, 0x0014, onReportLevelControlDefaultMoveRateCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0008, 0x4000,
+                                       onReportLevelControlStartUpCurrentLevelCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0008, 0xFFFD, onReportLevelControlClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0508, 0xFFFD, onReportLowPowerClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0507, 0x0001, onReportMediaInputCurrentMediaInputCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0507, 0xFFFD, onReportMediaInputClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0506, 0x0000, onReportMediaPlaybackPlaybackStateCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0506, 0x0001, onReportMediaPlaybackStartTimeCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0506, 0x0002, onReportMediaPlaybackDurationCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0506, 0x0003,
+                                       onReportMediaPlaybackPositionUpdatedAtCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0506, 0x0004, onReportMediaPlaybackPositionCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0506, 0x0005, onReportMediaPlaybackPlaybackSpeedCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0506, 0x0006, onReportMediaPlaybackSeekRangeEndCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0506, 0x0007, onReportMediaPlaybackSeekRangeStartCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0506, 0xFFFD, onReportMediaPlaybackClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0050, 0x0000, onReportModeSelectCurrentModeCallback->Cancel(),
                                        BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0050, 0x0002, onReportModeSelectOnModeCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0050, 0x0003, onReportModeSelectStartUpModeCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0050, 0x0004, onReportModeSelectDescriptionCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0050, 0xFFFD, onReportModeSelectClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0031, 0xFFFC,
+                                       onReportNetworkCommissioningFeatureMapCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0031, 0xFFFD,
+                                       onReportNetworkCommissioningClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0029, 0xFFFD,
+                                       onReportOtaSoftwareUpdateProviderClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x002A, 0x0001,
+                                       onReportOtaSoftwareUpdateRequestorDefaultOtaProviderCallback->Cancel(),
+                                       BasicAttributeFilter<OctetStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x002A, 0x0002,
+                                       onReportOtaSoftwareUpdateRequestorUpdatePossibleCallback->Cancel(),
+                                       BasicAttributeFilter<BooleanAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x002A, 0xFFFD,
+                                       onReportOtaSoftwareUpdateRequestorClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0406, 0x0000, onReportOccupancySensingOccupancyCallback->Cancel(),
                                        BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0406, 0x0001,
+                                       onReportOccupancySensingOccupancySensorTypeCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0406, 0x0002,
+                                       onReportOccupancySensingOccupancySensorTypeBitmapCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0406, 0xFFFD,
+                                       onReportOccupancySensingClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0006, 0x0000, onReportOnOffOnOffCallback->Cancel(),
                                        BasicAttributeFilter<BooleanAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0006, 0x4000, onReportOnOffGlobalSceneControlCallback->Cancel(),
+                                       BasicAttributeFilter<BooleanAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0006, 0x4001, onReportOnOffOnTimeCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0006, 0x4002, onReportOnOffOffWaitTimeCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0006, 0x4003, onReportOnOffStartUpOnOffCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0006, 0xFFFC, onReportOnOffFeatureMapCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0006, 0xFFFD, onReportOnOffClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0007, 0x0000,
+                                       onReportOnOffSwitchConfigurationSwitchTypeCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0007, 0x0010,
+                                       onReportOnOffSwitchConfigurationSwitchActionsCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0007, 0xFFFD,
+                                       onReportOnOffSwitchConfigurationClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x003E, 0x0002,
+                                       onReportOperationalCredentialsSupportedFabricsCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x003E, 0x0003,
+                                       onReportOperationalCredentialsCommissionedFabricsCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x003E, 0x0005,
+                                       onReportOperationalCredentialsCurrentFabricIndexCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x003E, 0xFFFD,
+                                       onReportOperationalCredentialsClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x002F, 0x0000, onReportPowerSourceStatusCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x002F, 0x0001, onReportPowerSourceOrderCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x002F, 0x0002, onReportPowerSourceDescriptionCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x002F, 0x000B, onReportPowerSourceBatteryVoltageCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x002F, 0x000C,
+                                       onReportPowerSourceBatteryPercentRemainingCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x002F, 0x000D,
+                                       onReportPowerSourceBatteryTimeRemainingCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x002F, 0x000E,
+                                       onReportPowerSourceBatteryChargeLevelCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x002F, 0x001A,
+                                       onReportPowerSourceBatteryChargeStateCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x002F, 0xFFFC, onReportPowerSourceFeatureMapCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x002F, 0xFFFD, onReportPowerSourceClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0403, 0x0000,
                                        onReportPressureMeasurementMeasuredValueCallback->Cancel(),
                                        BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0403, 0x0001,
+                                       onReportPressureMeasurementMinMeasuredValueCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0403, 0x0002,
+                                       onReportPressureMeasurementMaxMeasuredValueCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0403, 0xFFFD,
+                                       onReportPressureMeasurementClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x0000,
+                                       onReportPumpConfigurationAndControlMaxPressureCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x0001,
+                                       onReportPumpConfigurationAndControlMaxSpeedCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x0002,
+                                       onReportPumpConfigurationAndControlMaxFlowCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x0003,
+                                       onReportPumpConfigurationAndControlMinConstPressureCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x0004,
+                                       onReportPumpConfigurationAndControlMaxConstPressureCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x0005,
+                                       onReportPumpConfigurationAndControlMinCompPressureCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x0006,
+                                       onReportPumpConfigurationAndControlMaxCompPressureCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x0007,
+                                       onReportPumpConfigurationAndControlMinConstSpeedCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x0008,
+                                       onReportPumpConfigurationAndControlMaxConstSpeedCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x0009,
+                                       onReportPumpConfigurationAndControlMinConstFlowCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x000A,
+                                       onReportPumpConfigurationAndControlMaxConstFlowCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x000B,
+                                       onReportPumpConfigurationAndControlMinConstTempCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x000C,
+                                       onReportPumpConfigurationAndControlMaxConstTempCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x0010,
                                        onReportPumpConfigurationAndControlPumpStatusCallback->Cancel(),
                                        BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x0011,
+                                       onReportPumpConfigurationAndControlEffectiveOperationModeCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x0012,
+                                       onReportPumpConfigurationAndControlEffectiveControlModeCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x0013,
                                        onReportPumpConfigurationAndControlCapacityCallback->Cancel(),
                                        BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x0014,
+                                       onReportPumpConfigurationAndControlSpeedCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x0017,
+                                       onReportPumpConfigurationAndControlLifetimeEnergyConsumedCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x0020,
+                                       onReportPumpConfigurationAndControlOperationModeCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x0021,
+                                       onReportPumpConfigurationAndControlControlModeCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0x0022,
+                                       onReportPumpConfigurationAndControlAlarmMaskCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0xFFFC,
+                                       onReportPumpConfigurationAndControlFeatureMapCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0200, 0xFFFD,
+                                       onReportPumpConfigurationAndControlClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0405, 0x0000,
                                        onReportRelativeHumidityMeasurementMeasuredValueCallback->Cancel(),
                                        BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0405, 0x0001,
+                                       onReportRelativeHumidityMeasurementMinMeasuredValueCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0405, 0x0002,
+                                       onReportRelativeHumidityMeasurementMaxMeasuredValueCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0405, 0x0003,
                                        onReportRelativeHumidityMeasurementToleranceCallback->Cancel(),
                                        BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0405, 0xFFFD,
+                                       onReportRelativeHumidityMeasurementClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0005, 0x0000, onReportScenesSceneCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0005, 0x0001, onReportScenesCurrentSceneCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0005, 0x0002, onReportScenesCurrentGroupCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0005, 0x0003, onReportScenesSceneValidCallback->Cancel(),
+                                       BasicAttributeFilter<BooleanAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0005, 0x0004, onReportScenesNameSupportCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0005, 0xFFFD, onReportScenesClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0034, 0x0001,
+                                       onReportSoftwareDiagnosticsCurrentHeapFreeCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0034, 0x0002,
+                                       onReportSoftwareDiagnosticsCurrentHeapUsedCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0034, 0x0003,
+                                       onReportSoftwareDiagnosticsCurrentHeapHighWatermarkCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0034, 0xFFFD,
+                                       onReportSoftwareDiagnosticsClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x003B, 0x0000, onReportSwitchNumberOfPositionsCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x003B, 0x0001, onReportSwitchCurrentPositionCallback->Cancel(),
                                        BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x003B, 0x0002, onReportSwitchMultiPressMaxCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x003B, 0xFFFC, onReportSwitchFeatureMapCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x003B, 0xFFFD, onReportSwitchClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0504, 0x0001, onReportTvChannelTvChannelLineupCallback->Cancel(),
+                                       BasicAttributeFilter<OctetStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0504, 0x0002, onReportTvChannelCurrentTvChannelCallback->Cancel(),
+                                       BasicAttributeFilter<OctetStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0504, 0xFFFD, onReportTvChannelClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0505, 0xFFFD,
+                                       onReportTargetNavigatorClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0402, 0x0000,
                                        onReportTemperatureMeasurementMeasuredValueCallback->Cancel(),
                                        BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0402, 0x0001,
+                                       onReportTemperatureMeasurementMinMeasuredValueCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0402, 0x0002,
+                                       onReportTemperatureMeasurementMaxMeasuredValueCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
         callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0402, 0x0003,
                                        onReportTemperatureMeasurementToleranceCallback->Cancel(),
                                        BasicAttributeFilter<Int16uAttributeCallback>);
-        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0x0000, onReportThermostatLocalTemperatureCallback->Cancel(),
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0402, 0xFFFD,
+                                       onReportTemperatureMeasurementClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x0000, onReportTestClusterBooleanCallback->Cancel(),
+                                       BasicAttributeFilter<BooleanAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x0001, onReportTestClusterBitmap8Callback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x0002, onReportTestClusterBitmap16Callback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x0003, onReportTestClusterBitmap32Callback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x0004, onReportTestClusterBitmap64Callback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x0005, onReportTestClusterInt8uCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x0006, onReportTestClusterInt16uCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x0008, onReportTestClusterInt32uCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x000C, onReportTestClusterInt64uCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x000D, onReportTestClusterInt8sCallback->Cancel(),
+                                       BasicAttributeFilter<Int8sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x000E, onReportTestClusterInt16sCallback->Cancel(),
                                        BasicAttributeFilter<Int16sAttributeCallback>);
-        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x0008,
-                                       onReportWindowCoveringCurrentPositionLiftPercentageCallback->Cancel(),
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x0010, onReportTestClusterInt32sCallback->Cancel(),
+                                       BasicAttributeFilter<Int32sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x0014, onReportTestClusterInt64sCallback->Cancel(),
+                                       BasicAttributeFilter<Int64sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x0015, onReportTestClusterEnum8Callback->Cancel(),
                                        BasicAttributeFilter<Int8uAttributeCallback>);
-        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x0009,
-                                       onReportWindowCoveringCurrentPositionTiltPercentageCallback->Cancel(),
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x0016, onReportTestClusterEnum16Callback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x0019, onReportTestClusterOctetStringCallback->Cancel(),
+                                       BasicAttributeFilter<OctetStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x001D, onReportTestClusterLongOctetStringCallback->Cancel(),
+                                       BasicAttributeFilter<OctetStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x001E, onReportTestClusterCharStringCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x001F, onReportTestClusterLongCharStringCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x0020, onReportTestClusterEpochUsCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x0021, onReportTestClusterEpochSCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x0022, onReportTestClusterVendorIdCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x00FF, onReportTestClusterUnsupportedCallback->Cancel(),
+                                       BasicAttributeFilter<BooleanAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x8000, onReportTestClusterNullableBooleanCallback->Cancel(),
+                                       BasicAttributeFilter<BooleanAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x8001, onReportTestClusterNullableBitmap8Callback->Cancel(),
                                        BasicAttributeFilter<Int8uAttributeCallback>);
-        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x000A,
-                                       onReportWindowCoveringOperationalStatusCallback->Cancel(),
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x8002, onReportTestClusterNullableBitmap16Callback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x8003, onReportTestClusterNullableBitmap32Callback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x8004, onReportTestClusterNullableBitmap64Callback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x8005, onReportTestClusterNullableInt8uCallback->Cancel(),
                                        BasicAttributeFilter<Int8uAttributeCallback>);
-        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x000B,
-                                       onReportWindowCoveringTargetPositionLiftPercent100thsCallback->Cancel(),
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x8006, onReportTestClusterNullableInt16uCallback->Cancel(),
                                        BasicAttributeFilter<Int16uAttributeCallback>);
-        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x000C,
-                                       onReportWindowCoveringTargetPositionTiltPercent100thsCallback->Cancel(),
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x8008, onReportTestClusterNullableInt32uCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x800C, onReportTestClusterNullableInt64uCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x800D, onReportTestClusterNullableInt8sCallback->Cancel(),
+                                       BasicAttributeFilter<Int8sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x800E, onReportTestClusterNullableInt16sCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x8010, onReportTestClusterNullableInt32sCallback->Cancel(),
+                                       BasicAttributeFilter<Int32sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x8014, onReportTestClusterNullableInt64sCallback->Cancel(),
+                                       BasicAttributeFilter<Int64sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x8015, onReportTestClusterNullableEnum8Callback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x8016, onReportTestClusterNullableEnum16Callback->Cancel(),
                                        BasicAttributeFilter<Int16uAttributeCallback>);
-        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x000E,
-                                       onReportWindowCoveringCurrentPositionLiftPercent100thsCallback->Cancel(),
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x8019,
+                                       onReportTestClusterNullableOctetStringCallback->Cancel(),
+                                       BasicAttributeFilter<OctetStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0x801E,
+                                       onReportTestClusterNullableCharStringCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x050F, 0xFFFD, onReportTestClusterClusterRevisionCallback->Cancel(),
                                        BasicAttributeFilter<Int16uAttributeCallback>);
-        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x000F,
-                                       onReportWindowCoveringCurrentPositionTiltPercent100thsCallback->Cancel(),
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0x0000, onReportThermostatLocalTemperatureCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0x0003,
+                                       onReportThermostatAbsMinHeatSetpointLimitCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0x0004,
+                                       onReportThermostatAbsMaxHeatSetpointLimitCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0x0005,
+                                       onReportThermostatAbsMinCoolSetpointLimitCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0x0006,
+                                       onReportThermostatAbsMaxCoolSetpointLimitCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0x0011,
+                                       onReportThermostatOccupiedCoolingSetpointCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0x0012,
+                                       onReportThermostatOccupiedHeatingSetpointCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0x0015,
+                                       onReportThermostatMinHeatSetpointLimitCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0x0016,
+                                       onReportThermostatMaxHeatSetpointLimitCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0x0017,
+                                       onReportThermostatMinCoolSetpointLimitCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0x0018,
+                                       onReportThermostatMaxCoolSetpointLimitCallback->Cancel(),
+                                       BasicAttributeFilter<Int16sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0x0019,
+                                       onReportThermostatMinSetpointDeadBandCallback->Cancel(),
+                                       BasicAttributeFilter<Int8sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0x001B,
+                                       onReportThermostatControlSequenceOfOperationCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0x001C, onReportThermostatSystemModeCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0x0020, onReportThermostatStartOfWeekCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0x0021,
+                                       onReportThermostatNumberOfWeeklyTransitionsCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0x0022,
+                                       onReportThermostatNumberOfDailyTransitionsCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0xFFFC, onReportThermostatFeatureMapCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0201, 0xFFFD, onReportThermostatClusterRevisionCallback->Cancel(),
                                        BasicAttributeFilter<Int16uAttributeCallback>);
-        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x001A, onReportWindowCoveringSafetyStatusCallback->Cancel(),
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0204, 0x0000,
+                                       onReportThermostatUserInterfaceConfigurationTemperatureDisplayModeCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0204, 0x0001,
+                                       onReportThermostatUserInterfaceConfigurationKeypadLockoutCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0204, 0x0002,
+                                       onReportThermostatUserInterfaceConfigurationScheduleProgrammingVisibilityCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0204, 0xFFFD,
+                                       onReportThermostatUserInterfaceConfigurationClusterRevisionCallback->Cancel(),
                                        BasicAttributeFilter<Int16uAttributeCallback>);
-    }
-
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0000,
+                                       onReportThreadNetworkDiagnosticsChannelCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0001,
+                                       onReportThreadNetworkDiagnosticsRoutingRoleCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0002,
+                                       onReportThreadNetworkDiagnosticsNetworkNameCallback->Cancel(),
+                                       BasicAttributeFilter<OctetStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0003,
+                                       onReportThreadNetworkDiagnosticsPanIdCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0004,
+                                       onReportThreadNetworkDiagnosticsExtendedPanIdCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0005,
+                                       onReportThreadNetworkDiagnosticsMeshLocalPrefixCallback->Cancel(),
+                                       BasicAttributeFilter<OctetStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0006,
+                                       onReportThreadNetworkDiagnosticsOverrunCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0009,
+                                       onReportThreadNetworkDiagnosticsPartitionIdCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x000A,
+                                       onReportThreadNetworkDiagnosticsWeightingCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x000B,
+                                       onReportThreadNetworkDiagnosticsDataVersionCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x000C,
+                                       onReportThreadNetworkDiagnosticsStableDataVersionCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x000D,
+                                       onReportThreadNetworkDiagnosticsLeaderRouterIdCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x000E,
+                                       onReportThreadNetworkDiagnosticsDetachedRoleCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x000F,
+                                       onReportThreadNetworkDiagnosticsChildRoleCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0010,
+                                       onReportThreadNetworkDiagnosticsRouterRoleCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0011,
+                                       onReportThreadNetworkDiagnosticsLeaderRoleCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0012,
+                                       onReportThreadNetworkDiagnosticsAttachAttemptCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0013,
+                                       onReportThreadNetworkDiagnosticsPartitionIdChangeCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0014,
+                                       onReportThreadNetworkDiagnosticsBetterPartitionAttachAttemptCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0015,
+                                       onReportThreadNetworkDiagnosticsParentChangeCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0016,
+                                       onReportThreadNetworkDiagnosticsTxTotalCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0017,
+                                       onReportThreadNetworkDiagnosticsTxUnicastCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0018,
+                                       onReportThreadNetworkDiagnosticsTxBroadcastCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0019,
+                                       onReportThreadNetworkDiagnosticsTxAckRequestedCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x001A,
+                                       onReportThreadNetworkDiagnosticsTxAckedCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x001B,
+                                       onReportThreadNetworkDiagnosticsTxNoAckRequestedCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x001C,
+                                       onReportThreadNetworkDiagnosticsTxDataCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x001D,
+                                       onReportThreadNetworkDiagnosticsTxDataPollCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x001E,
+                                       onReportThreadNetworkDiagnosticsTxBeaconCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x001F,
+                                       onReportThreadNetworkDiagnosticsTxBeaconRequestCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0020,
+                                       onReportThreadNetworkDiagnosticsTxOtherCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0021,
+                                       onReportThreadNetworkDiagnosticsTxRetryCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0022,
+                                       onReportThreadNetworkDiagnosticsTxDirectMaxRetryExpiryCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0023,
+                                       onReportThreadNetworkDiagnosticsTxIndirectMaxRetryExpiryCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0024,
+                                       onReportThreadNetworkDiagnosticsTxErrCcaCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0025,
+                                       onReportThreadNetworkDiagnosticsTxErrAbortCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0026,
+                                       onReportThreadNetworkDiagnosticsTxErrBusyChannelCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0027,
+                                       onReportThreadNetworkDiagnosticsRxTotalCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0028,
+                                       onReportThreadNetworkDiagnosticsRxUnicastCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0029,
+                                       onReportThreadNetworkDiagnosticsRxBroadcastCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x002A,
+                                       onReportThreadNetworkDiagnosticsRxDataCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x002B,
+                                       onReportThreadNetworkDiagnosticsRxDataPollCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x002C,
+                                       onReportThreadNetworkDiagnosticsRxBeaconCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x002D,
+                                       onReportThreadNetworkDiagnosticsRxBeaconRequestCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x002E,
+                                       onReportThreadNetworkDiagnosticsRxOtherCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x002F,
+                                       onReportThreadNetworkDiagnosticsRxAddressFilteredCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0030,
+                                       onReportThreadNetworkDiagnosticsRxDestAddrFilteredCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0031,
+                                       onReportThreadNetworkDiagnosticsRxDuplicatedCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0032,
+                                       onReportThreadNetworkDiagnosticsRxErrNoFrameCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0033,
+                                       onReportThreadNetworkDiagnosticsRxErrUnknownNeighborCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0034,
+                                       onReportThreadNetworkDiagnosticsRxErrInvalidSrcAddrCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0035,
+                                       onReportThreadNetworkDiagnosticsRxErrSecCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0036,
+                                       onReportThreadNetworkDiagnosticsRxErrFcsCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0037,
+                                       onReportThreadNetworkDiagnosticsRxErrOtherCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0038,
+                                       onReportThreadNetworkDiagnosticsActiveTimestampCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x0039,
+                                       onReportThreadNetworkDiagnosticsPendingTimestampCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x003A,
+                                       onReportThreadNetworkDiagnosticsDelayCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0x003C,
+                                       onReportThreadNetworkDiagnosticsChannelMaskCallback->Cancel(),
+                                       BasicAttributeFilter<OctetStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0035, 0xFFFD,
+                                       onReportThreadNetworkDiagnosticsClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0503, 0x0000, onReportWakeOnLanWakeOnLanMacAddressCallback->Cancel(),
+                                       BasicAttributeFilter<CharStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0503, 0xFFFD, onReportWakeOnLanClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0036, 0x0000, onReportWiFiNetworkDiagnosticsBssidCallback->Cancel(),
+                                       BasicAttributeFilter<OctetStringAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0036, 0x0001,
+                                       onReportWiFiNetworkDiagnosticsSecurityTypeCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0036, 0x0002,
+                                       onReportWiFiNetworkDiagnosticsWiFiVersionCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0036, 0x0003,
+                                       onReportWiFiNetworkDiagnosticsChannelNumberCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0036, 0x0004, onReportWiFiNetworkDiagnosticsRssiCallback->Cancel(),
+                                       BasicAttributeFilter<Int8sAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0036, 0x0005,
+                                       onReportWiFiNetworkDiagnosticsBeaconLostCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0036, 0x0006,
+                                       onReportWiFiNetworkDiagnosticsBeaconRxCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0036, 0x0007,
+                                       onReportWiFiNetworkDiagnosticsPacketMulticastRxCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0036, 0x0008,
+                                       onReportWiFiNetworkDiagnosticsPacketMulticastTxCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0036, 0x0009,
+                                       onReportWiFiNetworkDiagnosticsPacketUnicastRxCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0036, 0x000A,
+                                       onReportWiFiNetworkDiagnosticsPacketUnicastTxCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0036, 0x000B,
+                                       onReportWiFiNetworkDiagnosticsCurrentMaxRateCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0036, 0x000C,
+                                       onReportWiFiNetworkDiagnosticsOverrunCountCallback->Cancel(),
+                                       BasicAttributeFilter<Int64uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0036, 0xFFFD,
+                                       onReportWiFiNetworkDiagnosticsClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x0000, onReportWindowCoveringTypeCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x0003,
+                                       onReportWindowCoveringCurrentPositionLiftCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x0004,
+                                       onReportWindowCoveringCurrentPositionTiltCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x0007, onReportWindowCoveringConfigStatusCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x0008,
+                                       onReportWindowCoveringCurrentPositionLiftPercentageCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x0009,
+                                       onReportWindowCoveringCurrentPositionTiltPercentageCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x000A,
+                                       onReportWindowCoveringOperationalStatusCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x000B,
+                                       onReportWindowCoveringTargetPositionLiftPercent100thsCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x000C,
+                                       onReportWindowCoveringTargetPositionTiltPercent100thsCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x000D, onReportWindowCoveringEndProductTypeCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x000E,
+                                       onReportWindowCoveringCurrentPositionLiftPercent100thsCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x000F,
+                                       onReportWindowCoveringCurrentPositionTiltPercent100thsCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x0010,
+                                       onReportWindowCoveringInstalledOpenLimitLiftCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x0011,
+                                       onReportWindowCoveringInstalledClosedLimitLiftCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x0012,
+                                       onReportWindowCoveringInstalledOpenLimitTiltCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x0013,
+                                       onReportWindowCoveringInstalledClosedLimitTiltCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x0017, onReportWindowCoveringModeCallback->Cancel(),
+                                       BasicAttributeFilter<Int8uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0x001A, onReportWindowCoveringSafetyStatusCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0xFFFC, onReportWindowCoveringFeatureMapCallback->Cancel(),
+                                       BasicAttributeFilter<Int32uAttributeCallback>);
+        callbacksMgr.AddReportCallback(remoteId, endpointId, 0x0102, 0xFFFD,
+                                       onReportWindowCoveringClusterRevisionCallback->Cancel(),
+                                       BasicAttributeFilter<Int16uAttributeCallback>);
+    }
+
     static void OnDefaultSuccessResponse(void * context) { ChipLogProgress(chipTool, "Default Success Response"); }
 
     static void OnDefaultFailureResponse(void * context, uint8_t status)
@@ -179,52 +1636,851 @@ class Listen : public ReportingCommand
     }
 
 private:
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportAccountLoginClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportAdministratorCommissioningClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportApplicationBasicVendorNameCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportApplicationBasicVendorIdCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportApplicationBasicApplicationNameCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportApplicationBasicProductIdCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportApplicationBasicApplicationIdCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportApplicationBasicCatalogVendorIdCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportApplicationBasicApplicationStatusCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportApplicationBasicClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportApplicationLauncherCatalogVendorIdCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportApplicationLauncherApplicationIdCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportApplicationLauncherClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportAudioOutputCurrentAudioOutputCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportAudioOutputClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportBarrierControlBarrierMovingStateCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportBarrierControlBarrierSafetyStatusCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportBarrierControlBarrierCapabilitiesCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportBarrierControlBarrierPositionCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportBarrierControlClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportBasicInteractionModelVersionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportBasicVendorNameCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportBasicVendorIDCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportBasicProductNameCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportBasicProductIDCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportBasicUserLabelCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportBasicLocationCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportBasicHardwareVersionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportBasicHardwareVersionStringCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportBasicSoftwareVersionCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportBasicSoftwareVersionStringCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportBasicManufacturingDateCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportBasicPartNumberCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportBasicProductURLCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportBasicProductLabelCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportBasicSerialNumberCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportBasicLocalConfigDisabledCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportBasicReachableCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportBasicClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportBinaryInputBasicOutOfServiceCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
     chip::Callback::Callback<BooleanAttributeCallback> * onReportBinaryInputBasicPresentValueCallback =
         new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
     chip::Callback::Callback<Int8uAttributeCallback> * onReportBinaryInputBasicStatusFlagsCallback =
         new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportBinaryInputBasicClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportBindingClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<BooleanAttributeCallback> * onReportBooleanStateStateValueCallback =
         new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportBooleanStateClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportBridgedActionsSetupUrlCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportBridgedActionsClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportBridgedDeviceBasicInformationClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<Int8uAttributeCallback> * onReportColorControlCurrentHueCallback =
         new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<Int8uAttributeCallback> * onReportColorControlCurrentSaturationCallback =
         new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlRemainingTimeCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlCurrentXCallback =
         new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlCurrentYCallback =
         new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportColorControlDriftCompensationCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportColorControlCompensationTextCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
     chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlColorTemperatureCallback =
         new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportColorControlColorModeCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportColorControlColorControlOptionsCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportColorControlNumberOfPrimariesCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlPrimary1XCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlPrimary1YCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportColorControlPrimary1IntensityCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlPrimary2XCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlPrimary2YCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportColorControlPrimary2IntensityCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlPrimary3XCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlPrimary3YCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportColorControlPrimary3IntensityCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlPrimary4XCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlPrimary4YCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportColorControlPrimary4IntensityCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlPrimary5XCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlPrimary5YCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportColorControlPrimary5IntensityCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlPrimary6XCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlPrimary6YCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportColorControlPrimary6IntensityCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlWhitePointXCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlWhitePointYCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlColorPointRXCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlColorPointRYCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportColorControlColorPointRIntensityCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlColorPointGXCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlColorPointGYCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportColorControlColorPointGIntensityCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlColorPointBXCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlColorPointBYCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportColorControlColorPointBIntensityCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlEnhancedCurrentHueCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportColorControlEnhancedColorModeCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportColorControlColorLoopActiveCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportColorControlColorLoopDirectionCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlColorLoopTimeCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlColorLoopStartEnhancedHueCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlColorLoopStoredEnhancedHueCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlColorCapabilitiesCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlColorTempPhysicalMinCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlColorTempPhysicalMaxCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlCoupleColorTempToLevelMinMiredsCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlStartUpColorTemperatureMiredsCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportColorControlClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportContentLauncherClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportDescriptorClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<Int8uAttributeCallback> * onReportDoorLockLockStateCallback =
         new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportDoorLockLockTypeCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportDoorLockActuatorEnabledCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportDoorLockClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportElectricalMeasurementMeasurementTypeCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32sAttributeCallback> * onReportElectricalMeasurementTotalActivePowerCallback =
+        new chip::Callback::Callback<Int32sAttributeCallback>(OnInt32sAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportElectricalMeasurementRmsVoltageCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportElectricalMeasurementRmsVoltageMinCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportElectricalMeasurementRmsVoltageMaxCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportElectricalMeasurementRmsCurrentCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportElectricalMeasurementRmsCurrentMinCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportElectricalMeasurementRmsCurrentMaxCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportElectricalMeasurementActivePowerCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportElectricalMeasurementActivePowerMinCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportElectricalMeasurementActivePowerMaxCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportElectricalMeasurementClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportEthernetNetworkDiagnosticsPHYRateCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportEthernetNetworkDiagnosticsFullDuplexCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportEthernetNetworkDiagnosticsPacketRxCountCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportEthernetNetworkDiagnosticsPacketTxCountCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportEthernetNetworkDiagnosticsTxErrCountCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportEthernetNetworkDiagnosticsCollisionCountCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportEthernetNetworkDiagnosticsOverrunCountCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportEthernetNetworkDiagnosticsCarrierDetectCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportEthernetNetworkDiagnosticsTimeSinceResetCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportEthernetNetworkDiagnosticsClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportFixedLabelClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportFlowMeasurementMeasuredValueCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportFlowMeasurementMinMeasuredValueCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportFlowMeasurementMaxMeasuredValueCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportFlowMeasurementToleranceCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportFlowMeasurementClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportGeneralCommissioningBreadcrumbCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportGeneralCommissioningClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportGeneralDiagnosticsRebootCountCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportGeneralDiagnosticsUpTimeCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportGeneralDiagnosticsTotalOperationalHoursCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportGeneralDiagnosticsBootReasonsCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportGeneralDiagnosticsClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportGroupKeyManagementClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportGroupsNameSupportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportGroupsClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportIdentifyIdentifyTimeCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportIdentifyIdentifyTypeCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportIdentifyClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<Int16uAttributeCallback> * onReportIlluminanceMeasurementMeasuredValueCallback =
         new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportIlluminanceMeasurementMinMeasuredValueCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportIlluminanceMeasurementMaxMeasuredValueCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportIlluminanceMeasurementToleranceCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportIlluminanceMeasurementLightSensorTypeCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportIlluminanceMeasurementClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportKeypadInputClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<Int8uAttributeCallback> * onReportLevelControlCurrentLevelCallback =
         new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportLevelControlRemainingTimeCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportLevelControlMinLevelCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportLevelControlMaxLevelCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportLevelControlCurrentFrequencyCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportLevelControlMinFrequencyCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportLevelControlMaxFrequencyCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportLevelControlOptionsCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportLevelControlOnOffTransitionTimeCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportLevelControlOnLevelCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportLevelControlOnTransitionTimeCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportLevelControlOffTransitionTimeCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportLevelControlDefaultMoveRateCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportLevelControlStartUpCurrentLevelCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportLevelControlClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportLowPowerClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportMediaInputCurrentMediaInputCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportMediaInputClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportMediaPlaybackPlaybackStateCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportMediaPlaybackStartTimeCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportMediaPlaybackDurationCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportMediaPlaybackPositionUpdatedAtCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportMediaPlaybackPositionCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportMediaPlaybackPlaybackSpeedCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportMediaPlaybackSeekRangeEndCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportMediaPlaybackSeekRangeStartCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportMediaPlaybackClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<Int8uAttributeCallback> * onReportModeSelectCurrentModeCallback =
         new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportModeSelectOnModeCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportModeSelectStartUpModeCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportModeSelectDescriptionCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportModeSelectClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportNetworkCommissioningFeatureMapCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportNetworkCommissioningClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportOtaSoftwareUpdateProviderClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportOtaSoftwareUpdateRequestorDefaultOtaProviderCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportOtaSoftwareUpdateRequestorUpdatePossibleCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportOtaSoftwareUpdateRequestorClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<Int8uAttributeCallback> * onReportOccupancySensingOccupancyCallback =
         new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportOccupancySensingOccupancySensorTypeCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportOccupancySensingOccupancySensorTypeBitmapCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportOccupancySensingClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<BooleanAttributeCallback> * onReportOnOffOnOffCallback =
         new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportOnOffGlobalSceneControlCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportOnOffOnTimeCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportOnOffOffWaitTimeCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportOnOffStartUpOnOffCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportOnOffFeatureMapCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportOnOffClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportOnOffSwitchConfigurationSwitchTypeCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportOnOffSwitchConfigurationSwitchActionsCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportOnOffSwitchConfigurationClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportOperationalCredentialsSupportedFabricsCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportOperationalCredentialsCommissionedFabricsCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportOperationalCredentialsCurrentFabricIndexCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportOperationalCredentialsClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportPowerSourceStatusCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportPowerSourceOrderCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportPowerSourceDescriptionCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportPowerSourceBatteryVoltageCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportPowerSourceBatteryPercentRemainingCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportPowerSourceBatteryTimeRemainingCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportPowerSourceBatteryChargeLevelCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportPowerSourceBatteryChargeStateCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportPowerSourceFeatureMapCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportPowerSourceClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<Int16sAttributeCallback> * onReportPressureMeasurementMeasuredValueCallback =
         new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportPressureMeasurementMinMeasuredValueCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportPressureMeasurementMaxMeasuredValueCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportPressureMeasurementClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportPumpConfigurationAndControlMaxPressureCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportPumpConfigurationAndControlMaxSpeedCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportPumpConfigurationAndControlMaxFlowCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportPumpConfigurationAndControlMinConstPressureCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportPumpConfigurationAndControlMaxConstPressureCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportPumpConfigurationAndControlMinCompPressureCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportPumpConfigurationAndControlMaxCompPressureCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportPumpConfigurationAndControlMinConstSpeedCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportPumpConfigurationAndControlMaxConstSpeedCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportPumpConfigurationAndControlMinConstFlowCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportPumpConfigurationAndControlMaxConstFlowCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportPumpConfigurationAndControlMinConstTempCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportPumpConfigurationAndControlMaxConstTempCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
     chip::Callback::Callback<Int16uAttributeCallback> * onReportPumpConfigurationAndControlPumpStatusCallback =
         new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportPumpConfigurationAndControlEffectiveOperationModeCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportPumpConfigurationAndControlEffectiveControlModeCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<Int16sAttributeCallback> * onReportPumpConfigurationAndControlCapacityCallback =
         new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportPumpConfigurationAndControlSpeedCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportPumpConfigurationAndControlLifetimeEnergyConsumedCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportPumpConfigurationAndControlOperationModeCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportPumpConfigurationAndControlControlModeCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportPumpConfigurationAndControlAlarmMaskCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportPumpConfigurationAndControlFeatureMapCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportPumpConfigurationAndControlClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<Int16uAttributeCallback> * onReportRelativeHumidityMeasurementMeasuredValueCallback =
         new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportRelativeHumidityMeasurementMinMeasuredValueCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportRelativeHumidityMeasurementMaxMeasuredValueCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<Int16uAttributeCallback> * onReportRelativeHumidityMeasurementToleranceCallback =
         new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportRelativeHumidityMeasurementClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportScenesSceneCountCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportScenesCurrentSceneCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportScenesCurrentGroupCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportScenesSceneValidCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportScenesNameSupportCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportScenesClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportSoftwareDiagnosticsCurrentHeapFreeCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportSoftwareDiagnosticsCurrentHeapUsedCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportSoftwareDiagnosticsCurrentHeapHighWatermarkCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportSoftwareDiagnosticsClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportSwitchNumberOfPositionsCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<Int8uAttributeCallback> * onReportSwitchCurrentPositionCallback =
         new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportSwitchMultiPressMaxCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportSwitchFeatureMapCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportSwitchClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportTvChannelTvChannelLineupCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportTvChannelCurrentTvChannelCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportTvChannelClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportTargetNavigatorClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<Int16sAttributeCallback> * onReportTemperatureMeasurementMeasuredValueCallback =
         new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportTemperatureMeasurementMinMeasuredValueCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportTemperatureMeasurementMaxMeasuredValueCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
     chip::Callback::Callback<Int16uAttributeCallback> * onReportTemperatureMeasurementToleranceCallback =
         new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportTemperatureMeasurementClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportTestClusterBooleanCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportTestClusterBitmap8Callback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportTestClusterBitmap16Callback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportTestClusterBitmap32Callback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportTestClusterBitmap64Callback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportTestClusterInt8uCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportTestClusterInt16uCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportTestClusterInt32uCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportTestClusterInt64uCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int8sAttributeCallback> * onReportTestClusterInt8sCallback =
+        new chip::Callback::Callback<Int8sAttributeCallback>(OnInt8sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportTestClusterInt16sCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int32sAttributeCallback> * onReportTestClusterInt32sCallback =
+        new chip::Callback::Callback<Int32sAttributeCallback>(OnInt32sAttributeResponse, this);
+    chip::Callback::Callback<Int64sAttributeCallback> * onReportTestClusterInt64sCallback =
+        new chip::Callback::Callback<Int64sAttributeCallback>(OnInt64sAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportTestClusterEnum8Callback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportTestClusterEnum16Callback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportTestClusterOctetStringCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportTestClusterLongOctetStringCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportTestClusterCharStringCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportTestClusterLongCharStringCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportTestClusterEpochUsCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportTestClusterEpochSCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportTestClusterVendorIdCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportTestClusterUnsupportedCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<BooleanAttributeCallback> * onReportTestClusterNullableBooleanCallback =
+        new chip::Callback::Callback<BooleanAttributeCallback>(OnBooleanAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportTestClusterNullableBitmap8Callback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportTestClusterNullableBitmap16Callback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportTestClusterNullableBitmap32Callback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportTestClusterNullableBitmap64Callback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportTestClusterNullableInt8uCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportTestClusterNullableInt16uCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportTestClusterNullableInt32uCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportTestClusterNullableInt64uCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int8sAttributeCallback> * onReportTestClusterNullableInt8sCallback =
+        new chip::Callback::Callback<Int8sAttributeCallback>(OnInt8sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportTestClusterNullableInt16sCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int32sAttributeCallback> * onReportTestClusterNullableInt32sCallback =
+        new chip::Callback::Callback<Int32sAttributeCallback>(OnInt32sAttributeResponse, this);
+    chip::Callback::Callback<Int64sAttributeCallback> * onReportTestClusterNullableInt64sCallback =
+        new chip::Callback::Callback<Int64sAttributeCallback>(OnInt64sAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportTestClusterNullableEnum8Callback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportTestClusterNullableEnum16Callback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportTestClusterNullableOctetStringCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportTestClusterNullableCharStringCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportTestClusterClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<Int16sAttributeCallback> * onReportThermostatLocalTemperatureCallback =
         new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportThermostatAbsMinHeatSetpointLimitCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportThermostatAbsMaxHeatSetpointLimitCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportThermostatAbsMinCoolSetpointLimitCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportThermostatAbsMaxCoolSetpointLimitCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportThermostatOccupiedCoolingSetpointCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportThermostatOccupiedHeatingSetpointCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportThermostatMinHeatSetpointLimitCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportThermostatMaxHeatSetpointLimitCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportThermostatMinCoolSetpointLimitCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int16sAttributeCallback> * onReportThermostatMaxCoolSetpointLimitCallback =
+        new chip::Callback::Callback<Int16sAttributeCallback>(OnInt16sAttributeResponse, this);
+    chip::Callback::Callback<Int8sAttributeCallback> * onReportThermostatMinSetpointDeadBandCallback =
+        new chip::Callback::Callback<Int8sAttributeCallback>(OnInt8sAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportThermostatControlSequenceOfOperationCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportThermostatSystemModeCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportThermostatStartOfWeekCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportThermostatNumberOfWeeklyTransitionsCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportThermostatNumberOfDailyTransitionsCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThermostatFeatureMapCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportThermostatClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportThermostatUserInterfaceConfigurationTemperatureDisplayModeCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportThermostatUserInterfaceConfigurationKeypadLockoutCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> *
+        onReportThermostatUserInterfaceConfigurationScheduleProgrammingVisibilityCallback =
+            new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportThermostatUserInterfaceConfigurationClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportThreadNetworkDiagnosticsChannelCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportThreadNetworkDiagnosticsRoutingRoleCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportThreadNetworkDiagnosticsNetworkNameCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportThreadNetworkDiagnosticsPanIdCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportThreadNetworkDiagnosticsExtendedPanIdCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportThreadNetworkDiagnosticsMeshLocalPrefixCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportThreadNetworkDiagnosticsOverrunCountCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsPartitionIdCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportThreadNetworkDiagnosticsWeightingCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportThreadNetworkDiagnosticsDataVersionCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportThreadNetworkDiagnosticsStableDataVersionCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportThreadNetworkDiagnosticsLeaderRouterIdCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportThreadNetworkDiagnosticsDetachedRoleCountCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportThreadNetworkDiagnosticsChildRoleCountCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportThreadNetworkDiagnosticsRouterRoleCountCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportThreadNetworkDiagnosticsLeaderRoleCountCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportThreadNetworkDiagnosticsAttachAttemptCountCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportThreadNetworkDiagnosticsPartitionIdChangeCountCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportThreadNetworkDiagnosticsBetterPartitionAttachAttemptCountCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportThreadNetworkDiagnosticsParentChangeCountCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsTxTotalCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsTxUnicastCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsTxBroadcastCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsTxAckRequestedCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsTxAckedCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsTxNoAckRequestedCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsTxDataCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsTxDataPollCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsTxBeaconCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsTxBeaconRequestCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsTxOtherCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsTxRetryCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsTxDirectMaxRetryExpiryCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsTxIndirectMaxRetryExpiryCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsTxErrCcaCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsTxErrAbortCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsTxErrBusyChannelCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsRxTotalCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsRxUnicastCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsRxBroadcastCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsRxDataCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsRxDataPollCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsRxBeaconCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsRxBeaconRequestCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsRxOtherCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsRxAddressFilteredCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsRxDestAddrFilteredCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsRxDuplicatedCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsRxErrNoFrameCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsRxErrUnknownNeighborCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsRxErrInvalidSrcAddrCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsRxErrSecCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsRxErrFcsCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsRxErrOtherCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportThreadNetworkDiagnosticsActiveTimestampCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportThreadNetworkDiagnosticsPendingTimestampCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportThreadNetworkDiagnosticsDelayCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportThreadNetworkDiagnosticsChannelMaskCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportThreadNetworkDiagnosticsClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<CharStringAttributeCallback> * onReportWakeOnLanWakeOnLanMacAddressCallback =
+        new chip::Callback::Callback<CharStringAttributeCallback>(OnCharStringAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportWakeOnLanClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<OctetStringAttributeCallback> * onReportWiFiNetworkDiagnosticsBssidCallback =
+        new chip::Callback::Callback<OctetStringAttributeCallback>(OnOctetStringAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportWiFiNetworkDiagnosticsSecurityTypeCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportWiFiNetworkDiagnosticsWiFiVersionCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportWiFiNetworkDiagnosticsChannelNumberCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8sAttributeCallback> * onReportWiFiNetworkDiagnosticsRssiCallback =
+        new chip::Callback::Callback<Int8sAttributeCallback>(OnInt8sAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportWiFiNetworkDiagnosticsBeaconLostCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportWiFiNetworkDiagnosticsBeaconRxCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportWiFiNetworkDiagnosticsPacketMulticastRxCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportWiFiNetworkDiagnosticsPacketMulticastTxCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportWiFiNetworkDiagnosticsPacketUnicastRxCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportWiFiNetworkDiagnosticsPacketUnicastTxCountCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportWiFiNetworkDiagnosticsCurrentMaxRateCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int64uAttributeCallback> * onReportWiFiNetworkDiagnosticsOverrunCountCallback =
+        new chip::Callback::Callback<Int64uAttributeCallback>(OnInt64uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportWiFiNetworkDiagnosticsClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportWindowCoveringTypeCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportWindowCoveringCurrentPositionLiftCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportWindowCoveringCurrentPositionTiltCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportWindowCoveringConfigStatusCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<Int8uAttributeCallback> * onReportWindowCoveringCurrentPositionLiftPercentageCallback =
         new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<Int8uAttributeCallback> * onReportWindowCoveringCurrentPositionTiltPercentageCallback =
@@ -235,12 +2491,28 @@ class Listen : public ReportingCommand
         new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<Int16uAttributeCallback> * onReportWindowCoveringTargetPositionTiltPercent100thsCallback =
         new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportWindowCoveringEndProductTypeCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<Int16uAttributeCallback> * onReportWindowCoveringCurrentPositionLiftPercent100thsCallback =
         new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
     chip::Callback::Callback<Int16uAttributeCallback> * onReportWindowCoveringCurrentPositionTiltPercent100thsCallback =
         new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportWindowCoveringInstalledOpenLimitLiftCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportWindowCoveringInstalledClosedLimitLiftCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportWindowCoveringInstalledOpenLimitTiltCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportWindowCoveringInstalledClosedLimitTiltCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int8uAttributeCallback> * onReportWindowCoveringModeCallback =
+        new chip::Callback::Callback<Int8uAttributeCallback>(OnInt8uAttributeResponse, this);
     chip::Callback::Callback<Int16uAttributeCallback> * onReportWindowCoveringSafetyStatusCallback =
         new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
+    chip::Callback::Callback<Int32uAttributeCallback> * onReportWindowCoveringFeatureMapCallback =
+        new chip::Callback::Callback<Int32uAttributeCallback>(OnInt32uAttributeResponse, this);
+    chip::Callback::Callback<Int16uAttributeCallback> * onReportWindowCoveringClusterRevisionCallback =
+        new chip::Callback::Callback<Int16uAttributeCallback>(OnInt16uAttributeResponse, this);
 };
 
 void registerCommandsReporting(Commands & commands)
diff --git a/zzz_generated/controller-clusters/zap-generated/CHIPClusters.cpp b/zzz_generated/controller-clusters/zap-generated/CHIPClusters.cpp
index 9b82ed5ad5a509..7a06626a72e12b 100644
--- a/zzz_generated/controller-clusters/zap-generated/CHIPClusters.cpp
+++ b/zzz_generated/controller-clusters/zap-generated/CHIPClusters.cpp
@@ -131,6 +131,23 @@ CHIP_ERROR AccountLoginCluster::ReadAttributeClusterRevision(Callback::Cancelabl
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR AccountLoginCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                  uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR AccountLoginCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // AdministratorCommissioning Cluster Commands
 CHIP_ERROR AdministratorCommissioningCluster::OpenBasicCommissioningWindow(Callback::Cancelable * onSuccessCallback,
                                                                            Callback::Cancelable * onFailureCallback,
@@ -282,6 +299,23 @@ CHIP_ERROR AdministratorCommissioningCluster::ReadAttributeClusterRevision(Callb
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR AdministratorCommissioningCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                                Callback::Cancelable * onFailureCallback,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR AdministratorCommissioningCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // ApplicationBasic Cluster Commands
 CHIP_ERROR ApplicationBasicCluster::ChangeStatus(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                  uint8_t status)
@@ -336,6 +370,23 @@ CHIP_ERROR ApplicationBasicCluster::ReadAttributeVendorName(Callback::Cancelable
                                              BasicAttributeFilter<CharStringAttributeCallback>);
 }
 
+CHIP_ERROR ApplicationBasicCluster::SubscribeAttributeVendorName(Callback::Cancelable * onSuccessCallback,
+                                                                 Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                 uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ApplicationBasic::Attributes::VendorName::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ApplicationBasicCluster::ReportAttributeVendorName(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ApplicationBasic::Attributes::VendorName::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR ApplicationBasicCluster::ReadAttributeVendorId(Callback::Cancelable * onSuccessCallback,
                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -347,6 +398,23 @@ CHIP_ERROR ApplicationBasicCluster::ReadAttributeVendorId(Callback::Cancelable *
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ApplicationBasicCluster::SubscribeAttributeVendorId(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ApplicationBasic::Attributes::VendorId::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ApplicationBasicCluster::ReportAttributeVendorId(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ApplicationBasic::Attributes::VendorId::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ApplicationBasicCluster::ReadAttributeApplicationName(Callback::Cancelable * onSuccessCallback,
                                                                  Callback::Cancelable * onFailureCallback)
 {
@@ -358,6 +426,23 @@ CHIP_ERROR ApplicationBasicCluster::ReadAttributeApplicationName(Callback::Cance
                                              BasicAttributeFilter<CharStringAttributeCallback>);
 }
 
+CHIP_ERROR ApplicationBasicCluster::SubscribeAttributeApplicationName(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ApplicationBasic::Attributes::ApplicationName::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ApplicationBasicCluster::ReportAttributeApplicationName(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ApplicationBasic::Attributes::ApplicationName::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR ApplicationBasicCluster::ReadAttributeProductId(Callback::Cancelable * onSuccessCallback,
                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -369,6 +454,23 @@ CHIP_ERROR ApplicationBasicCluster::ReadAttributeProductId(Callback::Cancelable
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ApplicationBasicCluster::SubscribeAttributeProductId(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ApplicationBasic::Attributes::ProductId::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ApplicationBasicCluster::ReportAttributeProductId(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ApplicationBasic::Attributes::ProductId::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ApplicationBasicCluster::ReadAttributeApplicationId(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -380,6 +482,23 @@ CHIP_ERROR ApplicationBasicCluster::ReadAttributeApplicationId(Callback::Cancela
                                              BasicAttributeFilter<CharStringAttributeCallback>);
 }
 
+CHIP_ERROR ApplicationBasicCluster::SubscribeAttributeApplicationId(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ApplicationBasic::Attributes::ApplicationId::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ApplicationBasicCluster::ReportAttributeApplicationId(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ApplicationBasic::Attributes::ApplicationId::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR ApplicationBasicCluster::ReadAttributeCatalogVendorId(Callback::Cancelable * onSuccessCallback,
                                                                  Callback::Cancelable * onFailureCallback)
 {
@@ -391,6 +510,23 @@ CHIP_ERROR ApplicationBasicCluster::ReadAttributeCatalogVendorId(Callback::Cance
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ApplicationBasicCluster::SubscribeAttributeCatalogVendorId(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ApplicationBasic::Attributes::CatalogVendorId::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ApplicationBasicCluster::ReportAttributeCatalogVendorId(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ApplicationBasic::Attributes::CatalogVendorId::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ApplicationBasicCluster::ReadAttributeApplicationStatus(Callback::Cancelable * onSuccessCallback,
                                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -402,6 +538,23 @@ CHIP_ERROR ApplicationBasicCluster::ReadAttributeApplicationStatus(Callback::Can
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ApplicationBasicCluster::SubscribeAttributeApplicationStatus(Callback::Cancelable * onSuccessCallback,
+                                                                        Callback::Cancelable * onFailureCallback,
+                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ApplicationBasic::Attributes::ApplicationStatus::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ApplicationBasicCluster::ReportAttributeApplicationStatus(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ApplicationBasic::Attributes::ApplicationStatus::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ApplicationBasicCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                  Callback::Cancelable * onFailureCallback)
 {
@@ -413,6 +566,23 @@ CHIP_ERROR ApplicationBasicCluster::ReadAttributeClusterRevision(Callback::Cance
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ApplicationBasicCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ApplicationBasicCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // ApplicationLauncher Cluster Commands
 CHIP_ERROR ApplicationLauncherCluster::LaunchApp(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                  chip::CharSpan data, uint16_t catalogVendorId, chip::CharSpan applicationId)
@@ -482,6 +652,23 @@ CHIP_ERROR ApplicationLauncherCluster::ReadAttributeCatalogVendorId(Callback::Ca
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ApplicationLauncherCluster::SubscribeAttributeCatalogVendorId(Callback::Cancelable * onSuccessCallback,
+                                                                         Callback::Cancelable * onFailureCallback,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ApplicationLauncher::Attributes::CatalogVendorId::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ApplicationLauncherCluster::ReportAttributeCatalogVendorId(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ApplicationLauncher::Attributes::CatalogVendorId::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ApplicationLauncherCluster::ReadAttributeApplicationId(Callback::Cancelable * onSuccessCallback,
                                                                   Callback::Cancelable * onFailureCallback)
 {
@@ -493,6 +680,23 @@ CHIP_ERROR ApplicationLauncherCluster::ReadAttributeApplicationId(Callback::Canc
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ApplicationLauncherCluster::SubscribeAttributeApplicationId(Callback::Cancelable * onSuccessCallback,
+                                                                       Callback::Cancelable * onFailureCallback,
+                                                                       uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ApplicationLauncher::Attributes::ApplicationId::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ApplicationLauncherCluster::ReportAttributeApplicationId(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ApplicationLauncher::Attributes::ApplicationId::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ApplicationLauncherCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -504,6 +708,23 @@ CHIP_ERROR ApplicationLauncherCluster::ReadAttributeClusterRevision(Callback::Ca
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ApplicationLauncherCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                         Callback::Cancelable * onFailureCallback,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ApplicationLauncherCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // AudioOutput Cluster Commands
 CHIP_ERROR AudioOutputCluster::RenameOutput(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                             uint8_t index, chip::CharSpan name)
@@ -612,6 +833,23 @@ CHIP_ERROR AudioOutputCluster::ReadAttributeCurrentAudioOutput(Callback::Cancela
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR AudioOutputCluster::SubscribeAttributeCurrentAudioOutput(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = AudioOutput::Attributes::CurrentAudioOutput::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR AudioOutputCluster::ReportAttributeCurrentAudioOutput(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(AudioOutput::Attributes::CurrentAudioOutput::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR AudioOutputCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                             Callback::Cancelable * onFailureCallback)
 {
@@ -623,6 +861,23 @@ CHIP_ERROR AudioOutputCluster::ReadAttributeClusterRevision(Callback::Cancelable
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR AudioOutputCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                 Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                 uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR AudioOutputCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // BarrierControl Cluster Commands
 CHIP_ERROR BarrierControlCluster::BarrierControlGoToPercent(Callback::Cancelable * onSuccessCallback,
                                                             Callback::Cancelable * onFailureCallback, uint8_t percentOpen)
@@ -717,6 +972,23 @@ CHIP_ERROR BarrierControlCluster::ReadAttributeBarrierMovingState(Callback::Canc
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR BarrierControlCluster::SubscribeAttributeBarrierMovingState(Callback::Cancelable * onSuccessCallback,
+                                                                       Callback::Cancelable * onFailureCallback,
+                                                                       uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = BarrierControl::Attributes::BarrierMovingState::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BarrierControlCluster::ReportAttributeBarrierMovingState(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(BarrierControl::Attributes::BarrierMovingState::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR BarrierControlCluster::ReadAttributeBarrierSafetyStatus(Callback::Cancelable * onSuccessCallback,
                                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -728,6 +1000,23 @@ CHIP_ERROR BarrierControlCluster::ReadAttributeBarrierSafetyStatus(Callback::Can
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR BarrierControlCluster::SubscribeAttributeBarrierSafetyStatus(Callback::Cancelable * onSuccessCallback,
+                                                                        Callback::Cancelable * onFailureCallback,
+                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = BarrierControl::Attributes::BarrierSafetyStatus::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BarrierControlCluster::ReportAttributeBarrierSafetyStatus(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(BarrierControl::Attributes::BarrierSafetyStatus::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR BarrierControlCluster::ReadAttributeBarrierCapabilities(Callback::Cancelable * onSuccessCallback,
                                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -739,6 +1028,23 @@ CHIP_ERROR BarrierControlCluster::ReadAttributeBarrierCapabilities(Callback::Can
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR BarrierControlCluster::SubscribeAttributeBarrierCapabilities(Callback::Cancelable * onSuccessCallback,
+                                                                        Callback::Cancelable * onFailureCallback,
+                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = BarrierControl::Attributes::BarrierCapabilities::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BarrierControlCluster::ReportAttributeBarrierCapabilities(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(BarrierControl::Attributes::BarrierCapabilities::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR BarrierControlCluster::ReadAttributeBarrierPosition(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -750,6 +1056,23 @@ CHIP_ERROR BarrierControlCluster::ReadAttributeBarrierPosition(Callback::Cancela
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR BarrierControlCluster::SubscribeAttributeBarrierPosition(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = BarrierControl::Attributes::BarrierPosition::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BarrierControlCluster::ReportAttributeBarrierPosition(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(BarrierControl::Attributes::BarrierPosition::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR BarrierControlCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -761,6 +1084,23 @@ CHIP_ERROR BarrierControlCluster::ReadAttributeClusterRevision(Callback::Cancela
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR BarrierControlCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BarrierControlCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // Basic Cluster Commands
 CHIP_ERROR BasicCluster::MfgSpecificPing(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
 {
@@ -812,19 +1152,53 @@ CHIP_ERROR BasicCluster::ReadAttributeInteractionModelVersion(Callback::Cancelab
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
-CHIP_ERROR BasicCluster::ReadAttributeVendorName(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
+CHIP_ERROR BasicCluster::SubscribeAttributeInteractionModelVersion(Callback::Cancelable * onSuccessCallback,
+                                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                   uint16_t maxInterval)
 {
-    app::AttributePathParams attributePath;
+    chip::app::AttributePathParams attributePath;
     attributePath.mEndpointId  = mEndpoint;
     attributePath.mClusterId   = mClusterId;
-    attributePath.mAttributeId = 0x00000001;
-    return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
-                                             BasicAttributeFilter<CharStringAttributeCallback>);
+    attributePath.mAttributeId = Basic::Attributes::InteractionModelVersion::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
 }
 
-CHIP_ERROR BasicCluster::ReadAttributeVendorID(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
+CHIP_ERROR BasicCluster::ReportAttributeInteractionModelVersion(Callback::Cancelable * onReportCallback)
 {
-    app::AttributePathParams attributePath;
+    return RequestAttributeReporting(Basic::Attributes::InteractionModelVersion::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
+CHIP_ERROR BasicCluster::ReadAttributeVendorName(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
+{
+    app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = 0x00000001;
+    return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
+                                             BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
+CHIP_ERROR BasicCluster::SubscribeAttributeVendorName(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Basic::Attributes::VendorName::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BasicCluster::ReportAttributeVendorName(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Basic::Attributes::VendorName::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
+CHIP_ERROR BasicCluster::ReadAttributeVendorID(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
+{
+    app::AttributePathParams attributePath;
     attributePath.mEndpointId  = mEndpoint;
     attributePath.mClusterId   = mClusterId;
     attributePath.mAttributeId = 0x00000002;
@@ -832,6 +1206,23 @@ CHIP_ERROR BasicCluster::ReadAttributeVendorID(Callback::Cancelable * onSuccessC
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR BasicCluster::SubscribeAttributeVendorID(Callback::Cancelable * onSuccessCallback,
+                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Basic::Attributes::VendorID::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BasicCluster::ReportAttributeVendorID(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Basic::Attributes::VendorID::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR BasicCluster::ReadAttributeProductName(Callback::Cancelable * onSuccessCallback,
                                                   Callback::Cancelable * onFailureCallback)
 {
@@ -843,6 +1234,23 @@ CHIP_ERROR BasicCluster::ReadAttributeProductName(Callback::Cancelable * onSucce
                                              BasicAttributeFilter<CharStringAttributeCallback>);
 }
 
+CHIP_ERROR BasicCluster::SubscribeAttributeProductName(Callback::Cancelable * onSuccessCallback,
+                                                       Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                       uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Basic::Attributes::ProductName::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BasicCluster::ReportAttributeProductName(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Basic::Attributes::ProductName::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR BasicCluster::ReadAttributeProductID(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
 {
     app::AttributePathParams attributePath;
@@ -853,6 +1261,23 @@ CHIP_ERROR BasicCluster::ReadAttributeProductID(Callback::Cancelable * onSuccess
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR BasicCluster::SubscribeAttributeProductID(Callback::Cancelable * onSuccessCallback,
+                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                     uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Basic::Attributes::ProductID::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BasicCluster::ReportAttributeProductID(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Basic::Attributes::ProductID::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR BasicCluster::ReadAttributeUserLabel(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
 {
     app::AttributePathParams attributePath;
@@ -874,6 +1299,23 @@ CHIP_ERROR BasicCluster::WriteAttributeUserLabel(Callback::Cancelable * onSucces
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR BasicCluster::SubscribeAttributeUserLabel(Callback::Cancelable * onSuccessCallback,
+                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                     uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Basic::Attributes::UserLabel::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BasicCluster::ReportAttributeUserLabel(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Basic::Attributes::UserLabel::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR BasicCluster::ReadAttributeLocation(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
 {
     app::AttributePathParams attributePath;
@@ -895,6 +1337,23 @@ CHIP_ERROR BasicCluster::WriteAttributeLocation(Callback::Cancelable * onSuccess
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR BasicCluster::SubscribeAttributeLocation(Callback::Cancelable * onSuccessCallback,
+                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Basic::Attributes::Location::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BasicCluster::ReportAttributeLocation(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Basic::Attributes::Location::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR BasicCluster::ReadAttributeHardwareVersion(Callback::Cancelable * onSuccessCallback,
                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -906,6 +1365,23 @@ CHIP_ERROR BasicCluster::ReadAttributeHardwareVersion(Callback::Cancelable * onS
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR BasicCluster::SubscribeAttributeHardwareVersion(Callback::Cancelable * onSuccessCallback,
+                                                           Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                           uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Basic::Attributes::HardwareVersion::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BasicCluster::ReportAttributeHardwareVersion(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Basic::Attributes::HardwareVersion::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR BasicCluster::ReadAttributeHardwareVersionString(Callback::Cancelable * onSuccessCallback,
                                                             Callback::Cancelable * onFailureCallback)
 {
@@ -917,6 +1393,23 @@ CHIP_ERROR BasicCluster::ReadAttributeHardwareVersionString(Callback::Cancelable
                                              BasicAttributeFilter<CharStringAttributeCallback>);
 }
 
+CHIP_ERROR BasicCluster::SubscribeAttributeHardwareVersionString(Callback::Cancelable * onSuccessCallback,
+                                                                 Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                 uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Basic::Attributes::HardwareVersionString::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BasicCluster::ReportAttributeHardwareVersionString(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Basic::Attributes::HardwareVersionString::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR BasicCluster::ReadAttributeSoftwareVersion(Callback::Cancelable * onSuccessCallback,
                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -928,6 +1421,23 @@ CHIP_ERROR BasicCluster::ReadAttributeSoftwareVersion(Callback::Cancelable * onS
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR BasicCluster::SubscribeAttributeSoftwareVersion(Callback::Cancelable * onSuccessCallback,
+                                                           Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                           uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Basic::Attributes::SoftwareVersion::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BasicCluster::ReportAttributeSoftwareVersion(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Basic::Attributes::SoftwareVersion::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR BasicCluster::ReadAttributeSoftwareVersionString(Callback::Cancelable * onSuccessCallback,
                                                             Callback::Cancelable * onFailureCallback)
 {
@@ -939,6 +1449,23 @@ CHIP_ERROR BasicCluster::ReadAttributeSoftwareVersionString(Callback::Cancelable
                                              BasicAttributeFilter<CharStringAttributeCallback>);
 }
 
+CHIP_ERROR BasicCluster::SubscribeAttributeSoftwareVersionString(Callback::Cancelable * onSuccessCallback,
+                                                                 Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                 uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Basic::Attributes::SoftwareVersionString::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BasicCluster::ReportAttributeSoftwareVersionString(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Basic::Attributes::SoftwareVersionString::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR BasicCluster::ReadAttributeManufacturingDate(Callback::Cancelable * onSuccessCallback,
                                                         Callback::Cancelable * onFailureCallback)
 {
@@ -950,6 +1477,23 @@ CHIP_ERROR BasicCluster::ReadAttributeManufacturingDate(Callback::Cancelable * o
                                              BasicAttributeFilter<CharStringAttributeCallback>);
 }
 
+CHIP_ERROR BasicCluster::SubscribeAttributeManufacturingDate(Callback::Cancelable * onSuccessCallback,
+                                                             Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                             uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Basic::Attributes::ManufacturingDate::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BasicCluster::ReportAttributeManufacturingDate(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Basic::Attributes::ManufacturingDate::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR BasicCluster::ReadAttributePartNumber(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
 {
     app::AttributePathParams attributePath;
@@ -960,6 +1504,23 @@ CHIP_ERROR BasicCluster::ReadAttributePartNumber(Callback::Cancelable * onSucces
                                              BasicAttributeFilter<CharStringAttributeCallback>);
 }
 
+CHIP_ERROR BasicCluster::SubscribeAttributePartNumber(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Basic::Attributes::PartNumber::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BasicCluster::ReportAttributePartNumber(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Basic::Attributes::PartNumber::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR BasicCluster::ReadAttributeProductURL(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
 {
     app::AttributePathParams attributePath;
@@ -970,6 +1531,23 @@ CHIP_ERROR BasicCluster::ReadAttributeProductURL(Callback::Cancelable * onSucces
                                              BasicAttributeFilter<CharStringAttributeCallback>);
 }
 
+CHIP_ERROR BasicCluster::SubscribeAttributeProductURL(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Basic::Attributes::ProductURL::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BasicCluster::ReportAttributeProductURL(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Basic::Attributes::ProductURL::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR BasicCluster::ReadAttributeProductLabel(Callback::Cancelable * onSuccessCallback,
                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -981,6 +1559,23 @@ CHIP_ERROR BasicCluster::ReadAttributeProductLabel(Callback::Cancelable * onSucc
                                              BasicAttributeFilter<CharStringAttributeCallback>);
 }
 
+CHIP_ERROR BasicCluster::SubscribeAttributeProductLabel(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Basic::Attributes::ProductLabel::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BasicCluster::ReportAttributeProductLabel(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Basic::Attributes::ProductLabel::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR BasicCluster::ReadAttributeSerialNumber(Callback::Cancelable * onSuccessCallback,
                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -992,6 +1587,23 @@ CHIP_ERROR BasicCluster::ReadAttributeSerialNumber(Callback::Cancelable * onSucc
                                              BasicAttributeFilter<CharStringAttributeCallback>);
 }
 
+CHIP_ERROR BasicCluster::SubscribeAttributeSerialNumber(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Basic::Attributes::SerialNumber::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BasicCluster::ReportAttributeSerialNumber(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Basic::Attributes::SerialNumber::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR BasicCluster::ReadAttributeLocalConfigDisabled(Callback::Cancelable * onSuccessCallback,
                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -1014,6 +1626,23 @@ CHIP_ERROR BasicCluster::WriteAttributeLocalConfigDisabled(Callback::Cancelable
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR BasicCluster::SubscribeAttributeLocalConfigDisabled(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Basic::Attributes::LocalConfigDisabled::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BasicCluster::ReportAttributeLocalConfigDisabled(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Basic::Attributes::LocalConfigDisabled::Id, onReportCallback,
+                                     BasicAttributeFilter<BooleanAttributeCallback>);
+}
+
 CHIP_ERROR BasicCluster::ReadAttributeReachable(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
 {
     app::AttributePathParams attributePath;
@@ -1024,6 +1653,23 @@ CHIP_ERROR BasicCluster::ReadAttributeReachable(Callback::Cancelable * onSuccess
                                              BasicAttributeFilter<BooleanAttributeCallback>);
 }
 
+CHIP_ERROR BasicCluster::SubscribeAttributeReachable(Callback::Cancelable * onSuccessCallback,
+                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                     uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Basic::Attributes::Reachable::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BasicCluster::ReportAttributeReachable(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Basic::Attributes::Reachable::Id, onReportCallback,
+                                     BasicAttributeFilter<BooleanAttributeCallback>);
+}
+
 CHIP_ERROR BasicCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -1035,6 +1681,23 @@ CHIP_ERROR BasicCluster::ReadAttributeClusterRevision(Callback::Cancelable * onS
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR BasicCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                           Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                           uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BasicCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // BinaryInputBasic Cluster Commands
 // BinaryInputBasic Cluster Attributes
 CHIP_ERROR BinaryInputBasicCluster::ReadAttributeOutOfService(Callback::Cancelable * onSuccessCallback,
@@ -1059,6 +1722,23 @@ CHIP_ERROR BinaryInputBasicCluster::WriteAttributeOutOfService(Callback::Cancela
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR BinaryInputBasicCluster::SubscribeAttributeOutOfService(Callback::Cancelable * onSuccessCallback,
+                                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                   uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = BinaryInputBasic::Attributes::OutOfService::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BinaryInputBasicCluster::ReportAttributeOutOfService(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(BinaryInputBasic::Attributes::OutOfService::Id, onReportCallback,
+                                     BasicAttributeFilter<BooleanAttributeCallback>);
+}
+
 CHIP_ERROR BinaryInputBasicCluster::ReadAttributePresentValue(Callback::Cancelable * onSuccessCallback,
                                                               Callback::Cancelable * onFailureCallback)
 {
@@ -1137,6 +1817,23 @@ CHIP_ERROR BinaryInputBasicCluster::ReadAttributeClusterRevision(Callback::Cance
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR BinaryInputBasicCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BinaryInputBasicCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // Binding Cluster Commands
 CHIP_ERROR BindingCluster::Bind(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                 chip::NodeId nodeId, chip::GroupId groupId, chip::EndpointId endpointId, chip::ClusterId clusterId)
@@ -1245,16 +1942,33 @@ CHIP_ERROR BindingCluster::ReadAttributeClusterRevision(Callback::Cancelable * o
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
-// BooleanState Cluster Commands
-// BooleanState Cluster Attributes
-CHIP_ERROR BooleanStateCluster::ReadAttributeStateValue(Callback::Cancelable * onSuccessCallback,
-                                                        Callback::Cancelable * onFailureCallback)
+CHIP_ERROR BindingCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                             Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                             uint16_t maxInterval)
 {
-    app::AttributePathParams attributePath;
+    chip::app::AttributePathParams attributePath;
     attributePath.mEndpointId  = mEndpoint;
     attributePath.mClusterId   = mClusterId;
-    attributePath.mAttributeId = 0x00000000;
-    return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BindingCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
+// BooleanState Cluster Commands
+// BooleanState Cluster Attributes
+CHIP_ERROR BooleanStateCluster::ReadAttributeStateValue(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback)
+{
+    app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = 0x00000000;
+    return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
                                              BasicAttributeFilter<BooleanAttributeCallback>);
 }
 
@@ -1286,6 +2000,23 @@ CHIP_ERROR BooleanStateCluster::ReadAttributeClusterRevision(Callback::Cancelabl
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR BooleanStateCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                  uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BooleanStateCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // BridgedActions Cluster Commands
 CHIP_ERROR BridgedActionsCluster::DisableAction(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                 uint16_t actionID, uint32_t invokeID)
@@ -1857,6 +2588,23 @@ CHIP_ERROR BridgedActionsCluster::ReadAttributeSetupUrl(Callback::Cancelable * o
                                              BasicAttributeFilter<CharStringAttributeCallback>);
 }
 
+CHIP_ERROR BridgedActionsCluster::SubscribeAttributeSetupUrl(Callback::Cancelable * onSuccessCallback,
+                                                             Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                             uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = BridgedActions::Attributes::SetupUrl::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BridgedActionsCluster::ReportAttributeSetupUrl(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(BridgedActions::Attributes::SetupUrl::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR BridgedActionsCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -1868,6 +2616,23 @@ CHIP_ERROR BridgedActionsCluster::ReadAttributeClusterRevision(Callback::Cancela
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR BridgedActionsCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BridgedActionsCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // BridgedDeviceBasicInformation Cluster Commands
 // BridgedDeviceBasicInformation Cluster Attributes
 CHIP_ERROR BridgedDeviceBasicInformationCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
@@ -1881,6 +2646,23 @@ CHIP_ERROR BridgedDeviceBasicInformationCluster::ReadAttributeClusterRevision(Ca
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR BridgedDeviceBasicInformationCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                                   Callback::Cancelable * onFailureCallback,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR BridgedDeviceBasicInformationCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // ColorControl Cluster Commands
 CHIP_ERROR ColorControlCluster::ColorLoopSet(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                              uint8_t updateFlags, uint8_t action, uint8_t direction, uint16_t time,
@@ -2893,6 +3675,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributeRemainingTime(Callback::Cancelable
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeRemainingTime(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::RemainingTime::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeRemainingTime(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::RemainingTime::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeCurrentX(Callback::Cancelable * onSuccessCallback,
                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -2960,6 +3759,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributeDriftCompensation(Callback::Cancela
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeDriftCompensation(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::DriftCompensation::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeDriftCompensation(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::DriftCompensation::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeCompensationText(Callback::Cancelable * onSuccessCallback,
                                                               Callback::Cancelable * onFailureCallback)
 {
@@ -2971,6 +3787,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributeCompensationText(Callback::Cancelab
                                              BasicAttributeFilter<CharStringAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeCompensationText(Callback::Cancelable * onSuccessCallback,
+                                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                   uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::CompensationText::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeCompensationText(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::CompensationText::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeColorTemperature(Callback::Cancelable * onSuccessCallback,
                                                               Callback::Cancelable * onFailureCallback)
 {
@@ -3010,6 +3843,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributeColorMode(Callback::Cancelable * on
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeColorMode(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::ColorMode::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeColorMode(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::ColorMode::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeColorControlOptions(Callback::Cancelable * onSuccessCallback,
                                                                  Callback::Cancelable * onFailureCallback)
 {
@@ -3032,6 +3882,23 @@ CHIP_ERROR ColorControlCluster::WriteAttributeColorControlOptions(Callback::Canc
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeColorControlOptions(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::ColorControlOptions::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeColorControlOptions(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::ColorControlOptions::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeNumberOfPrimaries(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -3043,6 +3910,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributeNumberOfPrimaries(Callback::Cancela
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeNumberOfPrimaries(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::NumberOfPrimaries::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeNumberOfPrimaries(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::NumberOfPrimaries::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributePrimary1X(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -3054,6 +3938,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributePrimary1X(Callback::Cancelable * on
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributePrimary1X(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::Primary1X::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributePrimary1X(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::Primary1X::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributePrimary1Y(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -3065,6 +3966,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributePrimary1Y(Callback::Cancelable * on
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributePrimary1Y(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::Primary1Y::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributePrimary1Y(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::Primary1Y::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributePrimary1Intensity(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -3076,6 +3994,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributePrimary1Intensity(Callback::Cancela
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributePrimary1Intensity(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::Primary1Intensity::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributePrimary1Intensity(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::Primary1Intensity::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributePrimary2X(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -3087,6 +4022,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributePrimary2X(Callback::Cancelable * on
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributePrimary2X(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::Primary2X::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributePrimary2X(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::Primary2X::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributePrimary2Y(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -3098,6 +4050,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributePrimary2Y(Callback::Cancelable * on
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributePrimary2Y(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::Primary2Y::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributePrimary2Y(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::Primary2Y::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributePrimary2Intensity(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -3109,6 +4078,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributePrimary2Intensity(Callback::Cancela
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributePrimary2Intensity(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::Primary2Intensity::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributePrimary2Intensity(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::Primary2Intensity::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributePrimary3X(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -3120,6 +4106,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributePrimary3X(Callback::Cancelable * on
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributePrimary3X(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::Primary3X::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributePrimary3X(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::Primary3X::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributePrimary3Y(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -3131,6 +4134,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributePrimary3Y(Callback::Cancelable * on
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributePrimary3Y(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::Primary3Y::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributePrimary3Y(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::Primary3Y::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributePrimary3Intensity(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -3142,15 +4162,49 @@ CHIP_ERROR ColorControlCluster::ReadAttributePrimary3Intensity(Callback::Cancela
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
-CHIP_ERROR ColorControlCluster::ReadAttributePrimary4X(Callback::Cancelable * onSuccessCallback,
-                                                       Callback::Cancelable * onFailureCallback)
+CHIP_ERROR ColorControlCluster::SubscribeAttributePrimary3Intensity(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
 {
-    app::AttributePathParams attributePath;
+    chip::app::AttributePathParams attributePath;
     attributePath.mEndpointId  = mEndpoint;
     attributePath.mClusterId   = mClusterId;
-    attributePath.mAttributeId = 0x00000020;
-    return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
-                                             BasicAttributeFilter<Int16uAttributeCallback>);
+    attributePath.mAttributeId = ColorControl::Attributes::Primary3Intensity::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributePrimary3Intensity(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::Primary3Intensity::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
+CHIP_ERROR ColorControlCluster::ReadAttributePrimary4X(Callback::Cancelable * onSuccessCallback,
+                                                       Callback::Cancelable * onFailureCallback)
+{
+    app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = 0x00000020;
+    return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
+                                             BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
+CHIP_ERROR ColorControlCluster::SubscribeAttributePrimary4X(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::Primary4X::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributePrimary4X(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::Primary4X::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
 CHIP_ERROR ColorControlCluster::ReadAttributePrimary4Y(Callback::Cancelable * onSuccessCallback,
@@ -3164,6 +4218,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributePrimary4Y(Callback::Cancelable * on
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributePrimary4Y(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::Primary4Y::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributePrimary4Y(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::Primary4Y::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributePrimary4Intensity(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -3175,6 +4246,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributePrimary4Intensity(Callback::Cancela
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributePrimary4Intensity(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::Primary4Intensity::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributePrimary4Intensity(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::Primary4Intensity::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributePrimary5X(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -3186,6 +4274,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributePrimary5X(Callback::Cancelable * on
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributePrimary5X(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::Primary5X::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributePrimary5X(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::Primary5X::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributePrimary5Y(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -3197,6 +4302,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributePrimary5Y(Callback::Cancelable * on
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributePrimary5Y(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::Primary5Y::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributePrimary5Y(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::Primary5Y::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributePrimary5Intensity(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -3208,6 +4330,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributePrimary5Intensity(Callback::Cancela
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributePrimary5Intensity(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::Primary5Intensity::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributePrimary5Intensity(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::Primary5Intensity::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributePrimary6X(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -3219,6 +4358,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributePrimary6X(Callback::Cancelable * on
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributePrimary6X(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::Primary6X::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributePrimary6X(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::Primary6X::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributePrimary6Y(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -3230,6 +4386,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributePrimary6Y(Callback::Cancelable * on
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributePrimary6Y(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::Primary6Y::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributePrimary6Y(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::Primary6Y::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributePrimary6Intensity(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -3241,6 +4414,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributePrimary6Intensity(Callback::Cancela
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributePrimary6Intensity(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::Primary6Intensity::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributePrimary6Intensity(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::Primary6Intensity::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeWhitePointX(Callback::Cancelable * onSuccessCallback,
                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -3263,6 +4453,23 @@ CHIP_ERROR ColorControlCluster::WriteAttributeWhitePointX(Callback::Cancelable *
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeWhitePointX(Callback::Cancelable * onSuccessCallback,
+                                                              Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                              uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::WhitePointX::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeWhitePointX(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::WhitePointX::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeWhitePointY(Callback::Cancelable * onSuccessCallback,
                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -3285,6 +4492,23 @@ CHIP_ERROR ColorControlCluster::WriteAttributeWhitePointY(Callback::Cancelable *
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeWhitePointY(Callback::Cancelable * onSuccessCallback,
+                                                              Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                              uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::WhitePointY::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeWhitePointY(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::WhitePointY::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeColorPointRX(Callback::Cancelable * onSuccessCallback,
                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -3307,6 +4531,23 @@ CHIP_ERROR ColorControlCluster::WriteAttributeColorPointRX(Callback::Cancelable
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeColorPointRX(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::ColorPointRX::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeColorPointRX(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::ColorPointRX::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeColorPointRY(Callback::Cancelable * onSuccessCallback,
                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -3329,6 +4570,23 @@ CHIP_ERROR ColorControlCluster::WriteAttributeColorPointRY(Callback::Cancelable
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeColorPointRY(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::ColorPointRY::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeColorPointRY(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::ColorPointRY::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeColorPointRIntensity(Callback::Cancelable * onSuccessCallback,
                                                                   Callback::Cancelable * onFailureCallback)
 {
@@ -3351,6 +4609,23 @@ CHIP_ERROR ColorControlCluster::WriteAttributeColorPointRIntensity(Callback::Can
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeColorPointRIntensity(Callback::Cancelable * onSuccessCallback,
+                                                                       Callback::Cancelable * onFailureCallback,
+                                                                       uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::ColorPointRIntensity::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeColorPointRIntensity(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::ColorPointRIntensity::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeColorPointGX(Callback::Cancelable * onSuccessCallback,
                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -3373,6 +4648,23 @@ CHIP_ERROR ColorControlCluster::WriteAttributeColorPointGX(Callback::Cancelable
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeColorPointGX(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::ColorPointGX::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeColorPointGX(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::ColorPointGX::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeColorPointGY(Callback::Cancelable * onSuccessCallback,
                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -3395,6 +4687,23 @@ CHIP_ERROR ColorControlCluster::WriteAttributeColorPointGY(Callback::Cancelable
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeColorPointGY(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::ColorPointGY::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeColorPointGY(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::ColorPointGY::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeColorPointGIntensity(Callback::Cancelable * onSuccessCallback,
                                                                   Callback::Cancelable * onFailureCallback)
 {
@@ -3417,6 +4726,23 @@ CHIP_ERROR ColorControlCluster::WriteAttributeColorPointGIntensity(Callback::Can
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeColorPointGIntensity(Callback::Cancelable * onSuccessCallback,
+                                                                       Callback::Cancelable * onFailureCallback,
+                                                                       uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::ColorPointGIntensity::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeColorPointGIntensity(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::ColorPointGIntensity::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeColorPointBX(Callback::Cancelable * onSuccessCallback,
                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -3439,6 +4765,23 @@ CHIP_ERROR ColorControlCluster::WriteAttributeColorPointBX(Callback::Cancelable
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeColorPointBX(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::ColorPointBX::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeColorPointBX(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::ColorPointBX::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeColorPointBY(Callback::Cancelable * onSuccessCallback,
                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -3461,15 +4804,32 @@ CHIP_ERROR ColorControlCluster::WriteAttributeColorPointBY(Callback::Cancelable
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
-CHIP_ERROR ColorControlCluster::ReadAttributeColorPointBIntensity(Callback::Cancelable * onSuccessCallback,
-                                                                  Callback::Cancelable * onFailureCallback)
+CHIP_ERROR ColorControlCluster::SubscribeAttributeColorPointBY(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval)
 {
-    app::AttributePathParams attributePath;
+    chip::app::AttributePathParams attributePath;
     attributePath.mEndpointId  = mEndpoint;
     attributePath.mClusterId   = mClusterId;
-    attributePath.mAttributeId = 0x0000003C;
-    return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
-                                             BasicAttributeFilter<Int8uAttributeCallback>);
+    attributePath.mAttributeId = ColorControl::Attributes::ColorPointBY::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeColorPointBY(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::ColorPointBY::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
+CHIP_ERROR ColorControlCluster::ReadAttributeColorPointBIntensity(Callback::Cancelable * onSuccessCallback,
+                                                                  Callback::Cancelable * onFailureCallback)
+{
+    app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = 0x0000003C;
+    return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
+                                             BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
 CHIP_ERROR ColorControlCluster::WriteAttributeColorPointBIntensity(Callback::Cancelable * onSuccessCallback,
@@ -3483,6 +4843,23 @@ CHIP_ERROR ColorControlCluster::WriteAttributeColorPointBIntensity(Callback::Can
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeColorPointBIntensity(Callback::Cancelable * onSuccessCallback,
+                                                                       Callback::Cancelable * onFailureCallback,
+                                                                       uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::ColorPointBIntensity::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeColorPointBIntensity(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::ColorPointBIntensity::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeEnhancedCurrentHue(Callback::Cancelable * onSuccessCallback,
                                                                 Callback::Cancelable * onFailureCallback)
 {
@@ -3494,6 +4871,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributeEnhancedCurrentHue(Callback::Cancel
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeEnhancedCurrentHue(Callback::Cancelable * onSuccessCallback,
+                                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                     uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::EnhancedCurrentHue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeEnhancedCurrentHue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::EnhancedCurrentHue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeEnhancedColorMode(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -3505,6 +4899,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributeEnhancedColorMode(Callback::Cancela
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeEnhancedColorMode(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::EnhancedColorMode::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeEnhancedColorMode(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::EnhancedColorMode::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeColorLoopActive(Callback::Cancelable * onSuccessCallback,
                                                              Callback::Cancelable * onFailureCallback)
 {
@@ -3516,6 +4927,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributeColorLoopActive(Callback::Cancelabl
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeColorLoopActive(Callback::Cancelable * onSuccessCallback,
+                                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                  uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::ColorLoopActive::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeColorLoopActive(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::ColorLoopActive::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeColorLoopDirection(Callback::Cancelable * onSuccessCallback,
                                                                 Callback::Cancelable * onFailureCallback)
 {
@@ -3527,6 +4955,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributeColorLoopDirection(Callback::Cancel
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeColorLoopDirection(Callback::Cancelable * onSuccessCallback,
+                                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                     uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::ColorLoopDirection::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeColorLoopDirection(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::ColorLoopDirection::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeColorLoopTime(Callback::Cancelable * onSuccessCallback,
                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -3538,6 +4983,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributeColorLoopTime(Callback::Cancelable
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeColorLoopTime(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::ColorLoopTime::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeColorLoopTime(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::ColorLoopTime::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeColorLoopStartEnhancedHue(Callback::Cancelable * onSuccessCallback,
                                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -3549,6 +5011,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributeColorLoopStartEnhancedHue(Callback:
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeColorLoopStartEnhancedHue(Callback::Cancelable * onSuccessCallback,
+                                                                            Callback::Cancelable * onFailureCallback,
+                                                                            uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::ColorLoopStartEnhancedHue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeColorLoopStartEnhancedHue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::ColorLoopStartEnhancedHue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeColorLoopStoredEnhancedHue(Callback::Cancelable * onSuccessCallback,
                                                                         Callback::Cancelable * onFailureCallback)
 {
@@ -3560,6 +5039,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributeColorLoopStoredEnhancedHue(Callback
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeColorLoopStoredEnhancedHue(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::ColorLoopStoredEnhancedHue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeColorLoopStoredEnhancedHue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::ColorLoopStoredEnhancedHue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeColorCapabilities(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -3571,6 +5067,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributeColorCapabilities(Callback::Cancela
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeColorCapabilities(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::ColorCapabilities::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeColorCapabilities(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::ColorCapabilities::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeColorTempPhysicalMin(Callback::Cancelable * onSuccessCallback,
                                                                   Callback::Cancelable * onFailureCallback)
 {
@@ -3582,6 +5095,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributeColorTempPhysicalMin(Callback::Canc
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeColorTempPhysicalMin(Callback::Cancelable * onSuccessCallback,
+                                                                       Callback::Cancelable * onFailureCallback,
+                                                                       uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::ColorTempPhysicalMin::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeColorTempPhysicalMin(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::ColorTempPhysicalMin::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeColorTempPhysicalMax(Callback::Cancelable * onSuccessCallback,
                                                                   Callback::Cancelable * onFailureCallback)
 {
@@ -3593,6 +5123,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributeColorTempPhysicalMax(Callback::Canc
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeColorTempPhysicalMax(Callback::Cancelable * onSuccessCallback,
+                                                                       Callback::Cancelable * onFailureCallback,
+                                                                       uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::ColorTempPhysicalMax::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeColorTempPhysicalMax(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::ColorTempPhysicalMax::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeCoupleColorTempToLevelMinMireds(Callback::Cancelable * onSuccessCallback,
                                                                              Callback::Cancelable * onFailureCallback)
 {
@@ -3604,6 +5151,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributeCoupleColorTempToLevelMinMireds(Cal
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeCoupleColorTempToLevelMinMireds(Callback::Cancelable * onSuccessCallback,
+                                                                                  Callback::Cancelable * onFailureCallback,
+                                                                                  uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::CoupleColorTempToLevelMinMireds::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeCoupleColorTempToLevelMinMireds(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::CoupleColorTempToLevelMinMireds::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeStartUpColorTemperatureMireds(Callback::Cancelable * onSuccessCallback,
                                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -3627,6 +5191,23 @@ CHIP_ERROR ColorControlCluster::WriteAttributeStartUpColorTemperatureMireds(Call
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeStartUpColorTemperatureMireds(Callback::Cancelable * onSuccessCallback,
+                                                                                Callback::Cancelable * onFailureCallback,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ColorControl::Attributes::StartUpColorTemperatureMireds::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeStartUpColorTemperatureMireds(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ColorControl::Attributes::StartUpColorTemperatureMireds::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ColorControlCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                              Callback::Cancelable * onFailureCallback)
 {
@@ -3638,6 +5219,23 @@ CHIP_ERROR ColorControlCluster::ReadAttributeClusterRevision(Callback::Cancelabl
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ColorControlCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                  uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ColorControlCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // ContentLauncher Cluster Commands
 CHIP_ERROR ContentLauncherCluster::LaunchContent(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                  bool autoPlay, chip::CharSpan data)
@@ -3759,6 +5357,23 @@ CHIP_ERROR ContentLauncherCluster::ReadAttributeClusterRevision(Callback::Cancel
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ContentLauncherCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                     uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ContentLauncherCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // Descriptor Cluster Commands
 // Descriptor Cluster Attributes
 CHIP_ERROR DescriptorCluster::ReadAttributeDeviceList(Callback::Cancelable * onSuccessCallback,
@@ -3816,6 +5431,23 @@ CHIP_ERROR DescriptorCluster::ReadAttributeClusterRevision(Callback::Cancelable
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR DescriptorCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR DescriptorCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // DiagnosticLogs Cluster Commands
 CHIP_ERROR DiagnosticLogsCluster::RetrieveLogsRequest(Callback::Cancelable * onSuccessCallback,
                                                       Callback::Cancelable * onFailureCallback, uint8_t intent,
@@ -4893,6 +6525,23 @@ CHIP_ERROR DoorLockCluster::ReadAttributeLockType(Callback::Cancelable * onSucce
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR DoorLockCluster::SubscribeAttributeLockType(Callback::Cancelable * onSuccessCallback,
+                                                       Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                       uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = DoorLock::Attributes::LockType::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR DoorLockCluster::ReportAttributeLockType(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(DoorLock::Attributes::LockType::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR DoorLockCluster::ReadAttributeActuatorEnabled(Callback::Cancelable * onSuccessCallback,
                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -4904,6 +6553,23 @@ CHIP_ERROR DoorLockCluster::ReadAttributeActuatorEnabled(Callback::Cancelable *
                                              BasicAttributeFilter<BooleanAttributeCallback>);
 }
 
+CHIP_ERROR DoorLockCluster::SubscribeAttributeActuatorEnabled(Callback::Cancelable * onSuccessCallback,
+                                                              Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                              uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = DoorLock::Attributes::ActuatorEnabled::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR DoorLockCluster::ReportAttributeActuatorEnabled(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(DoorLock::Attributes::ActuatorEnabled::Id, onReportCallback,
+                                     BasicAttributeFilter<BooleanAttributeCallback>);
+}
+
 CHIP_ERROR DoorLockCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -4915,6 +6581,23 @@ CHIP_ERROR DoorLockCluster::ReadAttributeClusterRevision(Callback::Cancelable *
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR DoorLockCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                              Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                              uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR DoorLockCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // ElectricalMeasurement Cluster Commands
 // ElectricalMeasurement Cluster Attributes
 CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeMeasurementType(Callback::Cancelable * onSuccessCallback,
@@ -4928,15 +6611,49 @@ CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeMeasurementType(Callback::
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
-CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeTotalActivePower(Callback::Cancelable * onSuccessCallback,
-                                                                       Callback::Cancelable * onFailureCallback)
+CHIP_ERROR ElectricalMeasurementCluster::SubscribeAttributeMeasurementType(Callback::Cancelable * onSuccessCallback,
+                                                                           Callback::Cancelable * onFailureCallback,
+                                                                           uint16_t minInterval, uint16_t maxInterval)
 {
-    app::AttributePathParams attributePath;
+    chip::app::AttributePathParams attributePath;
     attributePath.mEndpointId  = mEndpoint;
     attributePath.mClusterId   = mClusterId;
-    attributePath.mAttributeId = 0x00000304;
-    return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
-                                             BasicAttributeFilter<Int32sAttributeCallback>);
+    attributePath.mAttributeId = ElectricalMeasurement::Attributes::MeasurementType::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ElectricalMeasurementCluster::ReportAttributeMeasurementType(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ElectricalMeasurement::Attributes::MeasurementType::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
+CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeTotalActivePower(Callback::Cancelable * onSuccessCallback,
+                                                                       Callback::Cancelable * onFailureCallback)
+{
+    app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = 0x00000304;
+    return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
+                                             BasicAttributeFilter<Int32sAttributeCallback>);
+}
+
+CHIP_ERROR ElectricalMeasurementCluster::SubscribeAttributeTotalActivePower(Callback::Cancelable * onSuccessCallback,
+                                                                            Callback::Cancelable * onFailureCallback,
+                                                                            uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ElectricalMeasurement::Attributes::TotalActivePower::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ElectricalMeasurementCluster::ReportAttributeTotalActivePower(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ElectricalMeasurement::Attributes::TotalActivePower::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32sAttributeCallback>);
 }
 
 CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeRmsVoltage(Callback::Cancelable * onSuccessCallback,
@@ -4950,6 +6667,23 @@ CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeRmsVoltage(Callback::Cance
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ElectricalMeasurementCluster::SubscribeAttributeRmsVoltage(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ElectricalMeasurement::Attributes::RmsVoltage::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ElectricalMeasurementCluster::ReportAttributeRmsVoltage(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ElectricalMeasurement::Attributes::RmsVoltage::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeRmsVoltageMin(Callback::Cancelable * onSuccessCallback,
                                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -4961,6 +6695,23 @@ CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeRmsVoltageMin(Callback::Ca
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ElectricalMeasurementCluster::SubscribeAttributeRmsVoltageMin(Callback::Cancelable * onSuccessCallback,
+                                                                         Callback::Cancelable * onFailureCallback,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ElectricalMeasurement::Attributes::RmsVoltageMin::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ElectricalMeasurementCluster::ReportAttributeRmsVoltageMin(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ElectricalMeasurement::Attributes::RmsVoltageMin::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeRmsVoltageMax(Callback::Cancelable * onSuccessCallback,
                                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -4972,6 +6723,23 @@ CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeRmsVoltageMax(Callback::Ca
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ElectricalMeasurementCluster::SubscribeAttributeRmsVoltageMax(Callback::Cancelable * onSuccessCallback,
+                                                                         Callback::Cancelable * onFailureCallback,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ElectricalMeasurement::Attributes::RmsVoltageMax::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ElectricalMeasurementCluster::ReportAttributeRmsVoltageMax(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ElectricalMeasurement::Attributes::RmsVoltageMax::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeRmsCurrent(Callback::Cancelable * onSuccessCallback,
                                                                  Callback::Cancelable * onFailureCallback)
 {
@@ -4983,6 +6751,23 @@ CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeRmsCurrent(Callback::Cance
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ElectricalMeasurementCluster::SubscribeAttributeRmsCurrent(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ElectricalMeasurement::Attributes::RmsCurrent::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ElectricalMeasurementCluster::ReportAttributeRmsCurrent(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ElectricalMeasurement::Attributes::RmsCurrent::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeRmsCurrentMin(Callback::Cancelable * onSuccessCallback,
                                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -4994,6 +6779,23 @@ CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeRmsCurrentMin(Callback::Ca
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ElectricalMeasurementCluster::SubscribeAttributeRmsCurrentMin(Callback::Cancelable * onSuccessCallback,
+                                                                         Callback::Cancelable * onFailureCallback,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ElectricalMeasurement::Attributes::RmsCurrentMin::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ElectricalMeasurementCluster::ReportAttributeRmsCurrentMin(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ElectricalMeasurement::Attributes::RmsCurrentMin::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeRmsCurrentMax(Callback::Cancelable * onSuccessCallback,
                                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -5005,6 +6807,23 @@ CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeRmsCurrentMax(Callback::Ca
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ElectricalMeasurementCluster::SubscribeAttributeRmsCurrentMax(Callback::Cancelable * onSuccessCallback,
+                                                                         Callback::Cancelable * onFailureCallback,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ElectricalMeasurement::Attributes::RmsCurrentMax::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ElectricalMeasurementCluster::ReportAttributeRmsCurrentMax(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ElectricalMeasurement::Attributes::RmsCurrentMax::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeActivePower(Callback::Cancelable * onSuccessCallback,
                                                                   Callback::Cancelable * onFailureCallback)
 {
@@ -5016,6 +6835,23 @@ CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeActivePower(Callback::Canc
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR ElectricalMeasurementCluster::SubscribeAttributeActivePower(Callback::Cancelable * onSuccessCallback,
+                                                                       Callback::Cancelable * onFailureCallback,
+                                                                       uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ElectricalMeasurement::Attributes::ActivePower::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ElectricalMeasurementCluster::ReportAttributeActivePower(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ElectricalMeasurement::Attributes::ActivePower::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeActivePowerMin(Callback::Cancelable * onSuccessCallback,
                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -5027,6 +6863,23 @@ CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeActivePowerMin(Callback::C
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR ElectricalMeasurementCluster::SubscribeAttributeActivePowerMin(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ElectricalMeasurement::Attributes::ActivePowerMin::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ElectricalMeasurementCluster::ReportAttributeActivePowerMin(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ElectricalMeasurement::Attributes::ActivePowerMin::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeActivePowerMax(Callback::Cancelable * onSuccessCallback,
                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -5038,6 +6891,23 @@ CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeActivePowerMax(Callback::C
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR ElectricalMeasurementCluster::SubscribeAttributeActivePowerMax(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ElectricalMeasurement::Attributes::ActivePowerMax::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ElectricalMeasurementCluster::ReportAttributeActivePowerMax(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ElectricalMeasurement::Attributes::ActivePowerMax::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -5049,6 +6919,23 @@ CHIP_ERROR ElectricalMeasurementCluster::ReadAttributeClusterRevision(Callback::
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ElectricalMeasurementCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                           Callback::Cancelable * onFailureCallback,
+                                                                           uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ElectricalMeasurementCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // EthernetNetworkDiagnostics Cluster Commands
 CHIP_ERROR EthernetNetworkDiagnosticsCluster::ResetCounts(Callback::Cancelable * onSuccessCallback,
                                                           Callback::Cancelable * onFailureCallback)
@@ -5102,6 +6989,23 @@ CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReadAttributePHYRate(Callback::Can
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::SubscribeAttributePHYRate(Callback::Cancelable * onSuccessCallback,
+                                                                        Callback::Cancelable * onFailureCallback,
+                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = EthernetNetworkDiagnostics::Attributes::PHYRate::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReportAttributePHYRate(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(EthernetNetworkDiagnostics::Attributes::PHYRate::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReadAttributeFullDuplex(Callback::Cancelable * onSuccessCallback,
                                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -5113,6 +7017,23 @@ CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReadAttributeFullDuplex(Callback::
                                              BasicAttributeFilter<BooleanAttributeCallback>);
 }
 
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::SubscribeAttributeFullDuplex(Callback::Cancelable * onSuccessCallback,
+                                                                           Callback::Cancelable * onFailureCallback,
+                                                                           uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = EthernetNetworkDiagnostics::Attributes::FullDuplex::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReportAttributeFullDuplex(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(EthernetNetworkDiagnostics::Attributes::FullDuplex::Id, onReportCallback,
+                                     BasicAttributeFilter<BooleanAttributeCallback>);
+}
+
 CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReadAttributePacketRxCount(Callback::Cancelable * onSuccessCallback,
                                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -5124,6 +7045,23 @@ CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReadAttributePacketRxCount(Callbac
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::SubscribeAttributePacketRxCount(Callback::Cancelable * onSuccessCallback,
+                                                                              Callback::Cancelable * onFailureCallback,
+                                                                              uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = EthernetNetworkDiagnostics::Attributes::PacketRxCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReportAttributePacketRxCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(EthernetNetworkDiagnostics::Attributes::PacketRxCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReadAttributePacketTxCount(Callback::Cancelable * onSuccessCallback,
                                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -5135,6 +7073,23 @@ CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReadAttributePacketTxCount(Callbac
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::SubscribeAttributePacketTxCount(Callback::Cancelable * onSuccessCallback,
+                                                                              Callback::Cancelable * onFailureCallback,
+                                                                              uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = EthernetNetworkDiagnostics::Attributes::PacketTxCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReportAttributePacketTxCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(EthernetNetworkDiagnostics::Attributes::PacketTxCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReadAttributeTxErrCount(Callback::Cancelable * onSuccessCallback,
                                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -5146,6 +7101,23 @@ CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReadAttributeTxErrCount(Callback::
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::SubscribeAttributeTxErrCount(Callback::Cancelable * onSuccessCallback,
+                                                                           Callback::Cancelable * onFailureCallback,
+                                                                           uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = EthernetNetworkDiagnostics::Attributes::TxErrCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReportAttributeTxErrCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(EthernetNetworkDiagnostics::Attributes::TxErrCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReadAttributeCollisionCount(Callback::Cancelable * onSuccessCallback,
                                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -5157,6 +7129,23 @@ CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReadAttributeCollisionCount(Callba
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::SubscribeAttributeCollisionCount(Callback::Cancelable * onSuccessCallback,
+                                                                               Callback::Cancelable * onFailureCallback,
+                                                                               uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = EthernetNetworkDiagnostics::Attributes::CollisionCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReportAttributeCollisionCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(EthernetNetworkDiagnostics::Attributes::CollisionCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReadAttributeOverrunCount(Callback::Cancelable * onSuccessCallback,
                                                                         Callback::Cancelable * onFailureCallback)
 {
@@ -5168,6 +7157,23 @@ CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReadAttributeOverrunCount(Callback
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::SubscribeAttributeOverrunCount(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = EthernetNetworkDiagnostics::Attributes::OverrunCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReportAttributeOverrunCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(EthernetNetworkDiagnostics::Attributes::OverrunCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReadAttributeCarrierDetect(Callback::Cancelable * onSuccessCallback,
                                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -5179,6 +7185,23 @@ CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReadAttributeCarrierDetect(Callbac
                                              BasicAttributeFilter<BooleanAttributeCallback>);
 }
 
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::SubscribeAttributeCarrierDetect(Callback::Cancelable * onSuccessCallback,
+                                                                              Callback::Cancelable * onFailureCallback,
+                                                                              uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = EthernetNetworkDiagnostics::Attributes::CarrierDetect::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReportAttributeCarrierDetect(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(EthernetNetworkDiagnostics::Attributes::CarrierDetect::Id, onReportCallback,
+                                     BasicAttributeFilter<BooleanAttributeCallback>);
+}
+
 CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReadAttributeTimeSinceReset(Callback::Cancelable * onSuccessCallback,
                                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -5190,6 +7213,23 @@ CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReadAttributeTimeSinceReset(Callba
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::SubscribeAttributeTimeSinceReset(Callback::Cancelable * onSuccessCallback,
+                                                                               Callback::Cancelable * onFailureCallback,
+                                                                               uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = EthernetNetworkDiagnostics::Attributes::TimeSinceReset::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReportAttributeTimeSinceReset(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(EthernetNetworkDiagnostics::Attributes::TimeSinceReset::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -5201,15 +7241,32 @@ CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReadAttributeClusterRevision(Callb
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
-// FixedLabel Cluster Commands
-// FixedLabel Cluster Attributes
-CHIP_ERROR FixedLabelCluster::ReadAttributeLabelList(Callback::Cancelable * onSuccessCallback,
-                                                     Callback::Cancelable * onFailureCallback)
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                                Callback::Cancelable * onFailureCallback,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
 {
-    app::AttributePathParams attributePath;
+    chip::app::AttributePathParams attributePath;
     attributePath.mEndpointId  = mEndpoint;
     attributePath.mClusterId   = mClusterId;
-    attributePath.mAttributeId = 0x00000000;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR EthernetNetworkDiagnosticsCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
+// FixedLabel Cluster Commands
+// FixedLabel Cluster Attributes
+CHIP_ERROR FixedLabelCluster::ReadAttributeLabelList(Callback::Cancelable * onSuccessCallback,
+                                                     Callback::Cancelable * onFailureCallback)
+{
+    app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = 0x00000000;
     return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
                                              FixedLabelClusterLabelListListAttributeFilter);
 }
@@ -5225,6 +7282,23 @@ CHIP_ERROR FixedLabelCluster::ReadAttributeClusterRevision(Callback::Cancelable
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR FixedLabelCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR FixedLabelCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // FlowMeasurement Cluster Commands
 // FlowMeasurement Cluster Attributes
 CHIP_ERROR FlowMeasurementCluster::ReadAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback,
@@ -5238,6 +7312,23 @@ CHIP_ERROR FlowMeasurementCluster::ReadAttributeMeasuredValue(Callback::Cancelab
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR FlowMeasurementCluster::SubscribeAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                   uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = FlowMeasurement::Attributes::MeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR FlowMeasurementCluster::ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(FlowMeasurement::Attributes::MeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR FlowMeasurementCluster::ReadAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
                                                                  Callback::Cancelable * onFailureCallback)
 {
@@ -5249,6 +7340,23 @@ CHIP_ERROR FlowMeasurementCluster::ReadAttributeMinMeasuredValue(Callback::Cance
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR FlowMeasurementCluster::SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = FlowMeasurement::Attributes::MinMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR FlowMeasurementCluster::ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(FlowMeasurement::Attributes::MinMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR FlowMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
                                                                  Callback::Cancelable * onFailureCallback)
 {
@@ -5260,6 +7368,23 @@ CHIP_ERROR FlowMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback::Cance
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR FlowMeasurementCluster::SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = FlowMeasurement::Attributes::MaxMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR FlowMeasurementCluster::ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(FlowMeasurement::Attributes::MaxMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR FlowMeasurementCluster::ReadAttributeTolerance(Callback::Cancelable * onSuccessCallback,
                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -5271,6 +7396,23 @@ CHIP_ERROR FlowMeasurementCluster::ReadAttributeTolerance(Callback::Cancelable *
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR FlowMeasurementCluster::SubscribeAttributeTolerance(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = FlowMeasurement::Attributes::Tolerance::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR FlowMeasurementCluster::ReportAttributeTolerance(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(FlowMeasurement::Attributes::Tolerance::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR FlowMeasurementCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                 Callback::Cancelable * onFailureCallback)
 {
@@ -5282,6 +7424,23 @@ CHIP_ERROR FlowMeasurementCluster::ReadAttributeClusterRevision(Callback::Cancel
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR FlowMeasurementCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                     uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR FlowMeasurementCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // GeneralCommissioning Cluster Commands
 CHIP_ERROR GeneralCommissioningCluster::ArmFailSafe(Callback::Cancelable * onSuccessCallback,
                                                     Callback::Cancelable * onFailureCallback, uint16_t expiryLengthSeconds,
@@ -5441,6 +7600,23 @@ CHIP_ERROR GeneralCommissioningCluster::WriteAttributeBreadcrumb(Callback::Cance
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR GeneralCommissioningCluster::SubscribeAttributeBreadcrumb(Callback::Cancelable * onSuccessCallback,
+                                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                     uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = GeneralCommissioning::Attributes::Breadcrumb::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR GeneralCommissioningCluster::ReportAttributeBreadcrumb(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(GeneralCommissioning::Attributes::Breadcrumb::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR GeneralCommissioningCluster::ReadAttributeBasicCommissioningInfoList(Callback::Cancelable * onSuccessCallback,
                                                                                 Callback::Cancelable * onFailureCallback)
 {
@@ -5463,6 +7639,23 @@ CHIP_ERROR GeneralCommissioningCluster::ReadAttributeClusterRevision(Callback::C
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR GeneralCommissioningCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR GeneralCommissioningCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // GeneralDiagnostics Cluster Commands
 // GeneralDiagnostics Cluster Attributes
 CHIP_ERROR GeneralDiagnosticsCluster::ReadAttributeNetworkInterfaces(Callback::Cancelable * onSuccessCallback,
@@ -5487,6 +7680,23 @@ CHIP_ERROR GeneralDiagnosticsCluster::ReadAttributeRebootCount(Callback::Cancela
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR GeneralDiagnosticsCluster::SubscribeAttributeRebootCount(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = GeneralDiagnostics::Attributes::RebootCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR GeneralDiagnosticsCluster::ReportAttributeRebootCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(GeneralDiagnostics::Attributes::RebootCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR GeneralDiagnosticsCluster::ReadAttributeUpTime(Callback::Cancelable * onSuccessCallback,
                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -5498,6 +7708,23 @@ CHIP_ERROR GeneralDiagnosticsCluster::ReadAttributeUpTime(Callback::Cancelable *
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR GeneralDiagnosticsCluster::SubscribeAttributeUpTime(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = GeneralDiagnostics::Attributes::UpTime::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR GeneralDiagnosticsCluster::ReportAttributeUpTime(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(GeneralDiagnostics::Attributes::UpTime::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR GeneralDiagnosticsCluster::ReadAttributeTotalOperationalHours(Callback::Cancelable * onSuccessCallback,
                                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -5509,6 +7736,23 @@ CHIP_ERROR GeneralDiagnosticsCluster::ReadAttributeTotalOperationalHours(Callbac
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR GeneralDiagnosticsCluster::SubscribeAttributeTotalOperationalHours(Callback::Cancelable * onSuccessCallback,
+                                                                              Callback::Cancelable * onFailureCallback,
+                                                                              uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = GeneralDiagnostics::Attributes::TotalOperationalHours::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR GeneralDiagnosticsCluster::ReportAttributeTotalOperationalHours(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(GeneralDiagnostics::Attributes::TotalOperationalHours::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR GeneralDiagnosticsCluster::ReadAttributeBootReasons(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -5520,6 +7764,23 @@ CHIP_ERROR GeneralDiagnosticsCluster::ReadAttributeBootReasons(Callback::Cancela
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR GeneralDiagnosticsCluster::SubscribeAttributeBootReasons(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = GeneralDiagnostics::Attributes::BootReasons::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR GeneralDiagnosticsCluster::ReportAttributeBootReasons(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(GeneralDiagnostics::Attributes::BootReasons::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR GeneralDiagnosticsCluster::ReadAttributeActiveHardwareFaults(Callback::Cancelable * onSuccessCallback,
                                                                         Callback::Cancelable * onFailureCallback)
 {
@@ -5564,6 +7825,23 @@ CHIP_ERROR GeneralDiagnosticsCluster::ReadAttributeClusterRevision(Callback::Can
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR GeneralDiagnosticsCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                        Callback::Cancelable * onFailureCallback,
+                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR GeneralDiagnosticsCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // GroupKeyManagement Cluster Commands
 // GroupKeyManagement Cluster Attributes
 CHIP_ERROR GroupKeyManagementCluster::ReadAttributeGroups(Callback::Cancelable * onSuccessCallback,
@@ -5599,6 +7877,23 @@ CHIP_ERROR GroupKeyManagementCluster::ReadAttributeClusterRevision(Callback::Can
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR GroupKeyManagementCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                        Callback::Cancelable * onFailureCallback,
+                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR GroupKeyManagementCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // Groups Cluster Commands
 CHIP_ERROR GroupsCluster::AddGroup(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                    uint16_t groupId, chip::CharSpan groupName)
@@ -5859,6 +8154,23 @@ CHIP_ERROR GroupsCluster::ReadAttributeNameSupport(Callback::Cancelable * onSucc
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR GroupsCluster::SubscribeAttributeNameSupport(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Groups::Attributes::NameSupport::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR GroupsCluster::ReportAttributeNameSupport(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Groups::Attributes::NameSupport::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR GroupsCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -5870,6 +8182,23 @@ CHIP_ERROR GroupsCluster::ReadAttributeClusterRevision(Callback::Cancelable * on
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR GroupsCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR GroupsCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // Identify Cluster Commands
 CHIP_ERROR IdentifyCluster::Identify(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                      uint16_t identifyTime)
@@ -6016,6 +8345,23 @@ CHIP_ERROR IdentifyCluster::WriteAttributeIdentifyTime(Callback::Cancelable * on
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR IdentifyCluster::SubscribeAttributeIdentifyTime(Callback::Cancelable * onSuccessCallback,
+                                                           Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                           uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Identify::Attributes::IdentifyTime::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR IdentifyCluster::ReportAttributeIdentifyTime(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Identify::Attributes::IdentifyTime::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR IdentifyCluster::ReadAttributeIdentifyType(Callback::Cancelable * onSuccessCallback,
                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -6027,6 +8373,23 @@ CHIP_ERROR IdentifyCluster::ReadAttributeIdentifyType(Callback::Cancelable * onS
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR IdentifyCluster::SubscribeAttributeIdentifyType(Callback::Cancelable * onSuccessCallback,
+                                                           Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                           uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Identify::Attributes::IdentifyType::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR IdentifyCluster::ReportAttributeIdentifyType(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Identify::Attributes::IdentifyType::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR IdentifyCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -6038,6 +8401,23 @@ CHIP_ERROR IdentifyCluster::ReadAttributeClusterRevision(Callback::Cancelable *
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR IdentifyCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                              Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                              uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR IdentifyCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // IlluminanceMeasurement Cluster Commands
 // IlluminanceMeasurement Cluster Attributes
 CHIP_ERROR IlluminanceMeasurementCluster::ReadAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback,
@@ -6079,15 +8459,49 @@ CHIP_ERROR IlluminanceMeasurementCluster::ReadAttributeMinMeasuredValue(Callback
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
-CHIP_ERROR IlluminanceMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
-                                                                        Callback::Cancelable * onFailureCallback)
+CHIP_ERROR IlluminanceMeasurementCluster::SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
 {
-    app::AttributePathParams attributePath;
+    chip::app::AttributePathParams attributePath;
     attributePath.mEndpointId  = mEndpoint;
     attributePath.mClusterId   = mClusterId;
-    attributePath.mAttributeId = 0x00000002;
-    return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
-                                             BasicAttributeFilter<Int16uAttributeCallback>);
+    attributePath.mAttributeId = IlluminanceMeasurement::Attributes::MinMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR IlluminanceMeasurementCluster::ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(IlluminanceMeasurement::Attributes::MinMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
+CHIP_ERROR IlluminanceMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                        Callback::Cancelable * onFailureCallback)
+{
+    app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = 0x00000002;
+    return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
+                                             BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
+CHIP_ERROR IlluminanceMeasurementCluster::SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = IlluminanceMeasurement::Attributes::MaxMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR IlluminanceMeasurementCluster::ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(IlluminanceMeasurement::Attributes::MaxMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
 CHIP_ERROR IlluminanceMeasurementCluster::ReadAttributeTolerance(Callback::Cancelable * onSuccessCallback,
@@ -6101,6 +8515,23 @@ CHIP_ERROR IlluminanceMeasurementCluster::ReadAttributeTolerance(Callback::Cance
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR IlluminanceMeasurementCluster::SubscribeAttributeTolerance(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = IlluminanceMeasurement::Attributes::Tolerance::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR IlluminanceMeasurementCluster::ReportAttributeTolerance(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(IlluminanceMeasurement::Attributes::Tolerance::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR IlluminanceMeasurementCluster::ReadAttributeLightSensorType(Callback::Cancelable * onSuccessCallback,
                                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -6112,6 +8543,23 @@ CHIP_ERROR IlluminanceMeasurementCluster::ReadAttributeLightSensorType(Callback:
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR IlluminanceMeasurementCluster::SubscribeAttributeLightSensorType(Callback::Cancelable * onSuccessCallback,
+                                                                            Callback::Cancelable * onFailureCallback,
+                                                                            uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = IlluminanceMeasurement::Attributes::LightSensorType::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR IlluminanceMeasurementCluster::ReportAttributeLightSensorType(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(IlluminanceMeasurement::Attributes::LightSensorType::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR IlluminanceMeasurementCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -6123,6 +8571,23 @@ CHIP_ERROR IlluminanceMeasurementCluster::ReadAttributeClusterRevision(Callback:
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR IlluminanceMeasurementCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                            Callback::Cancelable * onFailureCallback,
+                                                                            uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR IlluminanceMeasurementCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // KeypadInput Cluster Commands
 CHIP_ERROR KeypadInputCluster::SendKey(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                        uint8_t keyCode)
@@ -6177,6 +8642,23 @@ CHIP_ERROR KeypadInputCluster::ReadAttributeClusterRevision(Callback::Cancelable
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR KeypadInputCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                 Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                 uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR KeypadInputCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // LevelControl Cluster Commands
 CHIP_ERROR LevelControlCluster::Move(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                      uint8_t moveMode, uint8_t rate, uint8_t optionMask, uint8_t optionOverride)
@@ -6575,6 +9057,23 @@ CHIP_ERROR LevelControlCluster::ReadAttributeRemainingTime(Callback::Cancelable
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR LevelControlCluster::SubscribeAttributeRemainingTime(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = LevelControl::Attributes::RemainingTime::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR LevelControlCluster::ReportAttributeRemainingTime(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(LevelControl::Attributes::RemainingTime::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR LevelControlCluster::ReadAttributeMinLevel(Callback::Cancelable * onSuccessCallback,
                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -6586,6 +9085,23 @@ CHIP_ERROR LevelControlCluster::ReadAttributeMinLevel(Callback::Cancelable * onS
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR LevelControlCluster::SubscribeAttributeMinLevel(Callback::Cancelable * onSuccessCallback,
+                                                           Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                           uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = LevelControl::Attributes::MinLevel::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR LevelControlCluster::ReportAttributeMinLevel(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(LevelControl::Attributes::MinLevel::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR LevelControlCluster::ReadAttributeMaxLevel(Callback::Cancelable * onSuccessCallback,
                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -6597,6 +9113,23 @@ CHIP_ERROR LevelControlCluster::ReadAttributeMaxLevel(Callback::Cancelable * onS
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR LevelControlCluster::SubscribeAttributeMaxLevel(Callback::Cancelable * onSuccessCallback,
+                                                           Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                           uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = LevelControl::Attributes::MaxLevel::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR LevelControlCluster::ReportAttributeMaxLevel(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(LevelControl::Attributes::MaxLevel::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR LevelControlCluster::ReadAttributeCurrentFrequency(Callback::Cancelable * onSuccessCallback,
                                                               Callback::Cancelable * onFailureCallback)
 {
@@ -6608,6 +9141,23 @@ CHIP_ERROR LevelControlCluster::ReadAttributeCurrentFrequency(Callback::Cancelab
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR LevelControlCluster::SubscribeAttributeCurrentFrequency(Callback::Cancelable * onSuccessCallback,
+                                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                   uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = LevelControl::Attributes::CurrentFrequency::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR LevelControlCluster::ReportAttributeCurrentFrequency(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(LevelControl::Attributes::CurrentFrequency::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR LevelControlCluster::ReadAttributeMinFrequency(Callback::Cancelable * onSuccessCallback,
                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -6619,6 +9169,23 @@ CHIP_ERROR LevelControlCluster::ReadAttributeMinFrequency(Callback::Cancelable *
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR LevelControlCluster::SubscribeAttributeMinFrequency(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = LevelControl::Attributes::MinFrequency::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR LevelControlCluster::ReportAttributeMinFrequency(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(LevelControl::Attributes::MinFrequency::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR LevelControlCluster::ReadAttributeMaxFrequency(Callback::Cancelable * onSuccessCallback,
                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -6630,6 +9197,23 @@ CHIP_ERROR LevelControlCluster::ReadAttributeMaxFrequency(Callback::Cancelable *
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR LevelControlCluster::SubscribeAttributeMaxFrequency(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = LevelControl::Attributes::MaxFrequency::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR LevelControlCluster::ReportAttributeMaxFrequency(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(LevelControl::Attributes::MaxFrequency::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR LevelControlCluster::ReadAttributeOptions(Callback::Cancelable * onSuccessCallback,
                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -6652,6 +9236,23 @@ CHIP_ERROR LevelControlCluster::WriteAttributeOptions(Callback::Cancelable * onS
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR LevelControlCluster::SubscribeAttributeOptions(Callback::Cancelable * onSuccessCallback,
+                                                          Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                          uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = LevelControl::Attributes::Options::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR LevelControlCluster::ReportAttributeOptions(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(LevelControl::Attributes::Options::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR LevelControlCluster::ReadAttributeOnOffTransitionTime(Callback::Cancelable * onSuccessCallback,
                                                                  Callback::Cancelable * onFailureCallback)
 {
@@ -6674,6 +9275,23 @@ CHIP_ERROR LevelControlCluster::WriteAttributeOnOffTransitionTime(Callback::Canc
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR LevelControlCluster::SubscribeAttributeOnOffTransitionTime(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = LevelControl::Attributes::OnOffTransitionTime::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR LevelControlCluster::ReportAttributeOnOffTransitionTime(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(LevelControl::Attributes::OnOffTransitionTime::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR LevelControlCluster::ReadAttributeOnLevel(Callback::Cancelable * onSuccessCallback,
                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -6696,6 +9314,23 @@ CHIP_ERROR LevelControlCluster::WriteAttributeOnLevel(Callback::Cancelable * onS
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR LevelControlCluster::SubscribeAttributeOnLevel(Callback::Cancelable * onSuccessCallback,
+                                                          Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                          uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = LevelControl::Attributes::OnLevel::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR LevelControlCluster::ReportAttributeOnLevel(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(LevelControl::Attributes::OnLevel::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR LevelControlCluster::ReadAttributeOnTransitionTime(Callback::Cancelable * onSuccessCallback,
                                                               Callback::Cancelable * onFailureCallback)
 {
@@ -6718,6 +9353,23 @@ CHIP_ERROR LevelControlCluster::WriteAttributeOnTransitionTime(Callback::Cancela
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR LevelControlCluster::SubscribeAttributeOnTransitionTime(Callback::Cancelable * onSuccessCallback,
+                                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                   uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = LevelControl::Attributes::OnTransitionTime::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR LevelControlCluster::ReportAttributeOnTransitionTime(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(LevelControl::Attributes::OnTransitionTime::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR LevelControlCluster::ReadAttributeOffTransitionTime(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -6740,6 +9392,23 @@ CHIP_ERROR LevelControlCluster::WriteAttributeOffTransitionTime(Callback::Cancel
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR LevelControlCluster::SubscribeAttributeOffTransitionTime(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = LevelControl::Attributes::OffTransitionTime::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR LevelControlCluster::ReportAttributeOffTransitionTime(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(LevelControl::Attributes::OffTransitionTime::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR LevelControlCluster::ReadAttributeDefaultMoveRate(Callback::Cancelable * onSuccessCallback,
                                                              Callback::Cancelable * onFailureCallback)
 {
@@ -6762,6 +9431,23 @@ CHIP_ERROR LevelControlCluster::WriteAttributeDefaultMoveRate(Callback::Cancelab
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR LevelControlCluster::SubscribeAttributeDefaultMoveRate(Callback::Cancelable * onSuccessCallback,
+                                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                  uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = LevelControl::Attributes::DefaultMoveRate::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR LevelControlCluster::ReportAttributeDefaultMoveRate(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(LevelControl::Attributes::DefaultMoveRate::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR LevelControlCluster::ReadAttributeStartUpCurrentLevel(Callback::Cancelable * onSuccessCallback,
                                                                  Callback::Cancelable * onFailureCallback)
 {
@@ -6784,6 +9470,23 @@ CHIP_ERROR LevelControlCluster::WriteAttributeStartUpCurrentLevel(Callback::Canc
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR LevelControlCluster::SubscribeAttributeStartUpCurrentLevel(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = LevelControl::Attributes::StartUpCurrentLevel::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR LevelControlCluster::ReportAttributeStartUpCurrentLevel(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(LevelControl::Attributes::StartUpCurrentLevel::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR LevelControlCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                              Callback::Cancelable * onFailureCallback)
 {
@@ -6795,6 +9498,23 @@ CHIP_ERROR LevelControlCluster::ReadAttributeClusterRevision(Callback::Cancelabl
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR LevelControlCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                  uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR LevelControlCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // LowPower Cluster Commands
 CHIP_ERROR LowPowerCluster::Sleep(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
 {
@@ -6846,6 +9566,23 @@ CHIP_ERROR LowPowerCluster::ReadAttributeClusterRevision(Callback::Cancelable *
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR LowPowerCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                              Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                              uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR LowPowerCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // MediaInput Cluster Commands
 CHIP_ERROR MediaInputCluster::HideInputStatus(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
 {
@@ -7030,6 +9767,23 @@ CHIP_ERROR MediaInputCluster::ReadAttributeCurrentMediaInput(Callback::Cancelabl
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR MediaInputCluster::SubscribeAttributeCurrentMediaInput(Callback::Cancelable * onSuccessCallback,
+                                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                  uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = MediaInput::Attributes::CurrentMediaInput::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR MediaInputCluster::ReportAttributeCurrentMediaInput(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(MediaInput::Attributes::CurrentMediaInput::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR MediaInputCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -7041,6 +9795,23 @@ CHIP_ERROR MediaInputCluster::ReadAttributeClusterRevision(Callback::Cancelable
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR MediaInputCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR MediaInputCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // MediaPlayback Cluster Commands
 CHIP_ERROR MediaPlaybackCluster::MediaFastForward(Callback::Cancelable * onSuccessCallback,
                                                   Callback::Cancelable * onFailureCallback)
@@ -7482,6 +10253,23 @@ CHIP_ERROR MediaPlaybackCluster::ReadAttributePlaybackState(Callback::Cancelable
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR MediaPlaybackCluster::SubscribeAttributePlaybackState(Callback::Cancelable * onSuccessCallback,
+                                                                 Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                 uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = MediaPlayback::Attributes::PlaybackState::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR MediaPlaybackCluster::ReportAttributePlaybackState(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(MediaPlayback::Attributes::PlaybackState::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR MediaPlaybackCluster::ReadAttributeStartTime(Callback::Cancelable * onSuccessCallback,
                                                         Callback::Cancelable * onFailureCallback)
 {
@@ -7493,6 +10281,23 @@ CHIP_ERROR MediaPlaybackCluster::ReadAttributeStartTime(Callback::Cancelable * o
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR MediaPlaybackCluster::SubscribeAttributeStartTime(Callback::Cancelable * onSuccessCallback,
+                                                             Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                             uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = MediaPlayback::Attributes::StartTime::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR MediaPlaybackCluster::ReportAttributeStartTime(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(MediaPlayback::Attributes::StartTime::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR MediaPlaybackCluster::ReadAttributeDuration(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -7504,6 +10309,23 @@ CHIP_ERROR MediaPlaybackCluster::ReadAttributeDuration(Callback::Cancelable * on
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR MediaPlaybackCluster::SubscribeAttributeDuration(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = MediaPlayback::Attributes::Duration::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR MediaPlaybackCluster::ReportAttributeDuration(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(MediaPlayback::Attributes::Duration::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR MediaPlaybackCluster::ReadAttributePositionUpdatedAt(Callback::Cancelable * onSuccessCallback,
                                                                 Callback::Cancelable * onFailureCallback)
 {
@@ -7515,6 +10337,23 @@ CHIP_ERROR MediaPlaybackCluster::ReadAttributePositionUpdatedAt(Callback::Cancel
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR MediaPlaybackCluster::SubscribeAttributePositionUpdatedAt(Callback::Cancelable * onSuccessCallback,
+                                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                     uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = MediaPlayback::Attributes::PositionUpdatedAt::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR MediaPlaybackCluster::ReportAttributePositionUpdatedAt(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(MediaPlayback::Attributes::PositionUpdatedAt::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR MediaPlaybackCluster::ReadAttributePosition(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -7526,6 +10365,23 @@ CHIP_ERROR MediaPlaybackCluster::ReadAttributePosition(Callback::Cancelable * on
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR MediaPlaybackCluster::SubscribeAttributePosition(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = MediaPlayback::Attributes::Position::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR MediaPlaybackCluster::ReportAttributePosition(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(MediaPlayback::Attributes::Position::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR MediaPlaybackCluster::ReadAttributePlaybackSpeed(Callback::Cancelable * onSuccessCallback,
                                                             Callback::Cancelable * onFailureCallback)
 {
@@ -7537,6 +10393,23 @@ CHIP_ERROR MediaPlaybackCluster::ReadAttributePlaybackSpeed(Callback::Cancelable
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR MediaPlaybackCluster::SubscribeAttributePlaybackSpeed(Callback::Cancelable * onSuccessCallback,
+                                                                 Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                 uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = MediaPlayback::Attributes::PlaybackSpeed::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR MediaPlaybackCluster::ReportAttributePlaybackSpeed(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(MediaPlayback::Attributes::PlaybackSpeed::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR MediaPlaybackCluster::ReadAttributeSeekRangeEnd(Callback::Cancelable * onSuccessCallback,
                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -7548,6 +10421,23 @@ CHIP_ERROR MediaPlaybackCluster::ReadAttributeSeekRangeEnd(Callback::Cancelable
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR MediaPlaybackCluster::SubscribeAttributeSeekRangeEnd(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = MediaPlayback::Attributes::SeekRangeEnd::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR MediaPlaybackCluster::ReportAttributeSeekRangeEnd(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(MediaPlayback::Attributes::SeekRangeEnd::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR MediaPlaybackCluster::ReadAttributeSeekRangeStart(Callback::Cancelable * onSuccessCallback,
                                                              Callback::Cancelable * onFailureCallback)
 {
@@ -7559,6 +10449,23 @@ CHIP_ERROR MediaPlaybackCluster::ReadAttributeSeekRangeStart(Callback::Cancelabl
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR MediaPlaybackCluster::SubscribeAttributeSeekRangeStart(Callback::Cancelable * onSuccessCallback,
+                                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                  uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = MediaPlayback::Attributes::SeekRangeStart::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR MediaPlaybackCluster::ReportAttributeSeekRangeStart(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(MediaPlayback::Attributes::SeekRangeStart::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR MediaPlaybackCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                               Callback::Cancelable * onFailureCallback)
 {
@@ -7570,6 +10477,23 @@ CHIP_ERROR MediaPlaybackCluster::ReadAttributeClusterRevision(Callback::Cancelab
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR MediaPlaybackCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                   uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR MediaPlaybackCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // ModeSelect Cluster Commands
 CHIP_ERROR ModeSelectCluster::ChangeToMode(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                            uint8_t newMode)
@@ -7674,6 +10598,23 @@ CHIP_ERROR ModeSelectCluster::WriteAttributeOnMode(Callback::Cancelable * onSucc
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ModeSelectCluster::SubscribeAttributeOnMode(Callback::Cancelable * onSuccessCallback,
+                                                       Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                       uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ModeSelect::Attributes::OnMode::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ModeSelectCluster::ReportAttributeOnMode(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ModeSelect::Attributes::OnMode::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ModeSelectCluster::ReadAttributeStartUpMode(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -7685,6 +10626,23 @@ CHIP_ERROR ModeSelectCluster::ReadAttributeStartUpMode(Callback::Cancelable * on
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ModeSelectCluster::SubscribeAttributeStartUpMode(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ModeSelect::Attributes::StartUpMode::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ModeSelectCluster::ReportAttributeStartUpMode(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ModeSelect::Attributes::StartUpMode::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ModeSelectCluster::ReadAttributeDescription(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -7696,6 +10654,23 @@ CHIP_ERROR ModeSelectCluster::ReadAttributeDescription(Callback::Cancelable * on
                                              BasicAttributeFilter<CharStringAttributeCallback>);
 }
 
+CHIP_ERROR ModeSelectCluster::SubscribeAttributeDescription(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ModeSelect::Attributes::Description::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ModeSelectCluster::ReportAttributeDescription(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ModeSelect::Attributes::Description::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR ModeSelectCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -7707,6 +10682,23 @@ CHIP_ERROR ModeSelectCluster::ReadAttributeClusterRevision(Callback::Cancelable
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ModeSelectCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ModeSelectCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // NetworkCommissioning Cluster Commands
 CHIP_ERROR NetworkCommissioningCluster::AddThreadNetwork(Callback::Cancelable * onSuccessCallback,
                                                          Callback::Cancelable * onFailureCallback,
@@ -8098,6 +11090,23 @@ CHIP_ERROR NetworkCommissioningCluster::ReadAttributeFeatureMap(Callback::Cancel
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR NetworkCommissioningCluster::SubscribeAttributeFeatureMap(Callback::Cancelable * onSuccessCallback,
+                                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                     uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::FeatureMap::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR NetworkCommissioningCluster::ReportAttributeFeatureMap(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::FeatureMap::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR NetworkCommissioningCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -8109,6 +11118,23 @@ CHIP_ERROR NetworkCommissioningCluster::ReadAttributeClusterRevision(Callback::C
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR NetworkCommissioningCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR NetworkCommissioningCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // OtaSoftwareUpdateProvider Cluster Commands
 CHIP_ERROR OtaSoftwareUpdateProviderCluster::ApplyUpdateRequest(Callback::Cancelable * onSuccessCallback,
                                                                 Callback::Cancelable * onFailureCallback,
@@ -8271,6 +11297,23 @@ CHIP_ERROR OtaSoftwareUpdateProviderCluster::ReadAttributeClusterRevision(Callba
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR OtaSoftwareUpdateProviderCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                               Callback::Cancelable * onFailureCallback,
+                                                                               uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OtaSoftwareUpdateProviderCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // OtaSoftwareUpdateRequestor Cluster Commands
 CHIP_ERROR OtaSoftwareUpdateRequestorCluster::AnnounceOtaProvider(Callback::Cancelable * onSuccessCallback,
                                                                   Callback::Cancelable * onFailureCallback,
@@ -8347,6 +11390,23 @@ CHIP_ERROR OtaSoftwareUpdateRequestorCluster::WriteAttributeDefaultOtaProvider(C
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR OtaSoftwareUpdateRequestorCluster::SubscribeAttributeDefaultOtaProvider(Callback::Cancelable * onSuccessCallback,
+                                                                                   Callback::Cancelable * onFailureCallback,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OtaSoftwareUpdateRequestor::Attributes::DefaultOtaProvider::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OtaSoftwareUpdateRequestorCluster::ReportAttributeDefaultOtaProvider(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OtaSoftwareUpdateRequestor::Attributes::DefaultOtaProvider::Id, onReportCallback,
+                                     BasicAttributeFilter<OctetStringAttributeCallback>);
+}
+
 CHIP_ERROR OtaSoftwareUpdateRequestorCluster::ReadAttributeUpdatePossible(Callback::Cancelable * onSuccessCallback,
                                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -8358,6 +11418,23 @@ CHIP_ERROR OtaSoftwareUpdateRequestorCluster::ReadAttributeUpdatePossible(Callba
                                              BasicAttributeFilter<BooleanAttributeCallback>);
 }
 
+CHIP_ERROR OtaSoftwareUpdateRequestorCluster::SubscribeAttributeUpdatePossible(Callback::Cancelable * onSuccessCallback,
+                                                                               Callback::Cancelable * onFailureCallback,
+                                                                               uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OtaSoftwareUpdateRequestor::Attributes::UpdatePossible::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OtaSoftwareUpdateRequestorCluster::ReportAttributeUpdatePossible(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OtaSoftwareUpdateRequestor::Attributes::UpdatePossible::Id, onReportCallback,
+                                     BasicAttributeFilter<BooleanAttributeCallback>);
+}
+
 CHIP_ERROR OtaSoftwareUpdateRequestorCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -8369,9 +11446,26 @@ CHIP_ERROR OtaSoftwareUpdateRequestorCluster::ReadAttributeClusterRevision(Callb
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
-// OccupancySensing Cluster Commands
-// OccupancySensing Cluster Attributes
-CHIP_ERROR OccupancySensingCluster::ReadAttributeOccupancy(Callback::Cancelable * onSuccessCallback,
+CHIP_ERROR OtaSoftwareUpdateRequestorCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                                Callback::Cancelable * onFailureCallback,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OtaSoftwareUpdateRequestorCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
+// OccupancySensing Cluster Commands
+// OccupancySensing Cluster Attributes
+CHIP_ERROR OccupancySensingCluster::ReadAttributeOccupancy(Callback::Cancelable * onSuccessCallback,
                                                            Callback::Cancelable * onFailureCallback)
 {
     app::AttributePathParams attributePath;
@@ -8410,6 +11504,23 @@ CHIP_ERROR OccupancySensingCluster::ReadAttributeOccupancySensorType(Callback::C
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR OccupancySensingCluster::SubscribeAttributeOccupancySensorType(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OccupancySensing::Attributes::OccupancySensorType::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OccupancySensingCluster::ReportAttributeOccupancySensorType(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OccupancySensing::Attributes::OccupancySensorType::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR OccupancySensingCluster::ReadAttributeOccupancySensorTypeBitmap(Callback::Cancelable * onSuccessCallback,
                                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -8421,6 +11532,23 @@ CHIP_ERROR OccupancySensingCluster::ReadAttributeOccupancySensorTypeBitmap(Callb
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR OccupancySensingCluster::SubscribeAttributeOccupancySensorTypeBitmap(Callback::Cancelable * onSuccessCallback,
+                                                                                Callback::Cancelable * onFailureCallback,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OccupancySensing::Attributes::OccupancySensorTypeBitmap::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OccupancySensingCluster::ReportAttributeOccupancySensorTypeBitmap(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OccupancySensing::Attributes::OccupancySensorTypeBitmap::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR OccupancySensingCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                  Callback::Cancelable * onFailureCallback)
 {
@@ -8432,6 +11560,23 @@ CHIP_ERROR OccupancySensingCluster::ReadAttributeClusterRevision(Callback::Cance
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR OccupancySensingCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OccupancySensingCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // OnOff Cluster Commands
 CHIP_ERROR OnOffCluster::Off(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
 {
@@ -8711,6 +11856,23 @@ CHIP_ERROR OnOffCluster::ReadAttributeGlobalSceneControl(Callback::Cancelable *
                                              BasicAttributeFilter<BooleanAttributeCallback>);
 }
 
+CHIP_ERROR OnOffCluster::SubscribeAttributeGlobalSceneControl(Callback::Cancelable * onSuccessCallback,
+                                                              Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                              uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OnOff::Attributes::GlobalSceneControl::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OnOffCluster::ReportAttributeGlobalSceneControl(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OnOff::Attributes::GlobalSceneControl::Id, onReportCallback,
+                                     BasicAttributeFilter<BooleanAttributeCallback>);
+}
+
 CHIP_ERROR OnOffCluster::ReadAttributeOnTime(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
 {
     app::AttributePathParams attributePath;
@@ -8732,6 +11894,23 @@ CHIP_ERROR OnOffCluster::WriteAttributeOnTime(Callback::Cancelable * onSuccessCa
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR OnOffCluster::SubscribeAttributeOnTime(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OnOff::Attributes::OnTime::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OnOffCluster::ReportAttributeOnTime(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OnOff::Attributes::OnTime::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR OnOffCluster::ReadAttributeOffWaitTime(Callback::Cancelable * onSuccessCallback,
                                                   Callback::Cancelable * onFailureCallback)
 {
@@ -8754,6 +11933,23 @@ CHIP_ERROR OnOffCluster::WriteAttributeOffWaitTime(Callback::Cancelable * onSucc
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR OnOffCluster::SubscribeAttributeOffWaitTime(Callback::Cancelable * onSuccessCallback,
+                                                       Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                       uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OnOff::Attributes::OffWaitTime::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OnOffCluster::ReportAttributeOffWaitTime(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OnOff::Attributes::OffWaitTime::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR OnOffCluster::ReadAttributeStartUpOnOff(Callback::Cancelable * onSuccessCallback,
                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -8776,6 +11972,23 @@ CHIP_ERROR OnOffCluster::WriteAttributeStartUpOnOff(Callback::Cancelable * onSuc
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR OnOffCluster::SubscribeAttributeStartUpOnOff(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OnOff::Attributes::StartUpOnOff::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OnOffCluster::ReportAttributeStartUpOnOff(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OnOff::Attributes::StartUpOnOff::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR OnOffCluster::ReadAttributeFeatureMap(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
 {
     app::AttributePathParams attributePath;
@@ -8786,6 +11999,23 @@ CHIP_ERROR OnOffCluster::ReadAttributeFeatureMap(Callback::Cancelable * onSucces
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR OnOffCluster::SubscribeAttributeFeatureMap(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::FeatureMap::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OnOffCluster::ReportAttributeFeatureMap(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::FeatureMap::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR OnOffCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -8797,6 +12027,23 @@ CHIP_ERROR OnOffCluster::ReadAttributeClusterRevision(Callback::Cancelable * onS
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR OnOffCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                           Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                           uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OnOffCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // OnOffSwitchConfiguration Cluster Commands
 // OnOffSwitchConfiguration Cluster Attributes
 CHIP_ERROR OnOffSwitchConfigurationCluster::ReadAttributeSwitchType(Callback::Cancelable * onSuccessCallback,
@@ -8810,6 +12057,23 @@ CHIP_ERROR OnOffSwitchConfigurationCluster::ReadAttributeSwitchType(Callback::Ca
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR OnOffSwitchConfigurationCluster::SubscribeAttributeSwitchType(Callback::Cancelable * onSuccessCallback,
+                                                                         Callback::Cancelable * onFailureCallback,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OnOffSwitchConfiguration::Attributes::SwitchType::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OnOffSwitchConfigurationCluster::ReportAttributeSwitchType(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OnOffSwitchConfiguration::Attributes::SwitchType::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR OnOffSwitchConfigurationCluster::ReadAttributeSwitchActions(Callback::Cancelable * onSuccessCallback,
                                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -8832,6 +12096,23 @@ CHIP_ERROR OnOffSwitchConfigurationCluster::WriteAttributeSwitchActions(Callback
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR OnOffSwitchConfigurationCluster::SubscribeAttributeSwitchActions(Callback::Cancelable * onSuccessCallback,
+                                                                            Callback::Cancelable * onFailureCallback,
+                                                                            uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OnOffSwitchConfiguration::Attributes::SwitchActions::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OnOffSwitchConfigurationCluster::ReportAttributeSwitchActions(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OnOffSwitchConfiguration::Attributes::SwitchActions::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR OnOffSwitchConfigurationCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -8843,6 +12124,23 @@ CHIP_ERROR OnOffSwitchConfigurationCluster::ReadAttributeClusterRevision(Callbac
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR OnOffSwitchConfigurationCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                              Callback::Cancelable * onFailureCallback,
+                                                                              uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OnOffSwitchConfigurationCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // OperationalCredentials Cluster Commands
 CHIP_ERROR OperationalCredentialsCluster::AddNOC(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                  chip::ByteSpan NOCValue, chip::ByteSpan ICACValue, chip::ByteSpan IPKValue,
@@ -9258,6 +12556,23 @@ CHIP_ERROR OperationalCredentialsCluster::ReadAttributeSupportedFabrics(Callback
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR OperationalCredentialsCluster::SubscribeAttributeSupportedFabrics(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OperationalCredentials::Attributes::SupportedFabrics::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OperationalCredentialsCluster::ReportAttributeSupportedFabrics(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OperationalCredentials::Attributes::SupportedFabrics::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR OperationalCredentialsCluster::ReadAttributeCommissionedFabrics(Callback::Cancelable * onSuccessCallback,
                                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -9269,6 +12584,23 @@ CHIP_ERROR OperationalCredentialsCluster::ReadAttributeCommissionedFabrics(Callb
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR OperationalCredentialsCluster::SubscribeAttributeCommissionedFabrics(Callback::Cancelable * onSuccessCallback,
+                                                                                Callback::Cancelable * onFailureCallback,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OperationalCredentials::Attributes::CommissionedFabrics::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OperationalCredentialsCluster::ReportAttributeCommissionedFabrics(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OperationalCredentials::Attributes::CommissionedFabrics::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR OperationalCredentialsCluster::ReadAttributeTrustedRootCertificates(Callback::Cancelable * onSuccessCallback,
                                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -9291,6 +12623,23 @@ CHIP_ERROR OperationalCredentialsCluster::ReadAttributeCurrentFabricIndex(Callba
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR OperationalCredentialsCluster::SubscribeAttributeCurrentFabricIndex(Callback::Cancelable * onSuccessCallback,
+                                                                               Callback::Cancelable * onFailureCallback,
+                                                                               uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OperationalCredentials::Attributes::CurrentFabricIndex::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OperationalCredentialsCluster::ReportAttributeCurrentFabricIndex(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OperationalCredentials::Attributes::CurrentFabricIndex::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR OperationalCredentialsCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -9302,6 +12651,23 @@ CHIP_ERROR OperationalCredentialsCluster::ReadAttributeClusterRevision(Callback:
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR OperationalCredentialsCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                            Callback::Cancelable * onFailureCallback,
+                                                                            uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OperationalCredentialsCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // PowerSource Cluster Commands
 // PowerSource Cluster Attributes
 CHIP_ERROR PowerSourceCluster::ReadAttributeStatus(Callback::Cancelable * onSuccessCallback,
@@ -9315,6 +12681,23 @@ CHIP_ERROR PowerSourceCluster::ReadAttributeStatus(Callback::Cancelable * onSucc
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR PowerSourceCluster::SubscribeAttributeStatus(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PowerSource::Attributes::Status::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PowerSourceCluster::ReportAttributeStatus(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PowerSource::Attributes::Status::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR PowerSourceCluster::ReadAttributeOrder(Callback::Cancelable * onSuccessCallback,
                                                   Callback::Cancelable * onFailureCallback)
 {
@@ -9326,6 +12709,23 @@ CHIP_ERROR PowerSourceCluster::ReadAttributeOrder(Callback::Cancelable * onSucce
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR PowerSourceCluster::SubscribeAttributeOrder(Callback::Cancelable * onSuccessCallback,
+                                                       Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                       uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PowerSource::Attributes::Order::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PowerSourceCluster::ReportAttributeOrder(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PowerSource::Attributes::Order::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR PowerSourceCluster::ReadAttributeDescription(Callback::Cancelable * onSuccessCallback,
                                                         Callback::Cancelable * onFailureCallback)
 {
@@ -9337,6 +12737,23 @@ CHIP_ERROR PowerSourceCluster::ReadAttributeDescription(Callback::Cancelable * o
                                              BasicAttributeFilter<CharStringAttributeCallback>);
 }
 
+CHIP_ERROR PowerSourceCluster::SubscribeAttributeDescription(Callback::Cancelable * onSuccessCallback,
+                                                             Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                             uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PowerSource::Attributes::Description::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PowerSourceCluster::ReportAttributeDescription(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PowerSource::Attributes::Description::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR PowerSourceCluster::ReadAttributeBatteryVoltage(Callback::Cancelable * onSuccessCallback,
                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -9348,6 +12765,23 @@ CHIP_ERROR PowerSourceCluster::ReadAttributeBatteryVoltage(Callback::Cancelable
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR PowerSourceCluster::SubscribeAttributeBatteryVoltage(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PowerSource::Attributes::BatteryVoltage::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PowerSourceCluster::ReportAttributeBatteryVoltage(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PowerSource::Attributes::BatteryVoltage::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR PowerSourceCluster::ReadAttributeBatteryPercentRemaining(Callback::Cancelable * onSuccessCallback,
                                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -9359,17 +12793,51 @@ CHIP_ERROR PowerSourceCluster::ReadAttributeBatteryPercentRemaining(Callback::Ca
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
-CHIP_ERROR PowerSourceCluster::ReadAttributeBatteryTimeRemaining(Callback::Cancelable * onSuccessCallback,
-                                                                 Callback::Cancelable * onFailureCallback)
+CHIP_ERROR PowerSourceCluster::SubscribeAttributeBatteryPercentRemaining(Callback::Cancelable * onSuccessCallback,
+                                                                         Callback::Cancelable * onFailureCallback,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
 {
-    app::AttributePathParams attributePath;
+    chip::app::AttributePathParams attributePath;
     attributePath.mEndpointId  = mEndpoint;
     attributePath.mClusterId   = mClusterId;
-    attributePath.mAttributeId = 0x0000000D;
+    attributePath.mAttributeId = PowerSource::Attributes::BatteryPercentRemaining::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PowerSourceCluster::ReportAttributeBatteryPercentRemaining(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PowerSource::Attributes::BatteryPercentRemaining::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
+CHIP_ERROR PowerSourceCluster::ReadAttributeBatteryTimeRemaining(Callback::Cancelable * onSuccessCallback,
+                                                                 Callback::Cancelable * onFailureCallback)
+{
+    app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = 0x0000000D;
     return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR PowerSourceCluster::SubscribeAttributeBatteryTimeRemaining(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PowerSource::Attributes::BatteryTimeRemaining::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PowerSourceCluster::ReportAttributeBatteryTimeRemaining(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PowerSource::Attributes::BatteryTimeRemaining::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR PowerSourceCluster::ReadAttributeBatteryChargeLevel(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -9381,6 +12849,23 @@ CHIP_ERROR PowerSourceCluster::ReadAttributeBatteryChargeLevel(Callback::Cancela
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR PowerSourceCluster::SubscribeAttributeBatteryChargeLevel(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PowerSource::Attributes::BatteryChargeLevel::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PowerSourceCluster::ReportAttributeBatteryChargeLevel(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PowerSource::Attributes::BatteryChargeLevel::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR PowerSourceCluster::ReadAttributeActiveBatteryFaults(Callback::Cancelable * onSuccessCallback,
                                                                 Callback::Cancelable * onFailureCallback)
 {
@@ -9403,6 +12888,23 @@ CHIP_ERROR PowerSourceCluster::ReadAttributeBatteryChargeState(Callback::Cancela
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR PowerSourceCluster::SubscribeAttributeBatteryChargeState(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PowerSource::Attributes::BatteryChargeState::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PowerSourceCluster::ReportAttributeBatteryChargeState(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PowerSource::Attributes::BatteryChargeState::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR PowerSourceCluster::ReadAttributeFeatureMap(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -9414,6 +12916,23 @@ CHIP_ERROR PowerSourceCluster::ReadAttributeFeatureMap(Callback::Cancelable * on
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR PowerSourceCluster::SubscribeAttributeFeatureMap(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::FeatureMap::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PowerSourceCluster::ReportAttributeFeatureMap(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::FeatureMap::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR PowerSourceCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                             Callback::Cancelable * onFailureCallback)
 {
@@ -9425,6 +12944,23 @@ CHIP_ERROR PowerSourceCluster::ReadAttributeClusterRevision(Callback::Cancelable
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR PowerSourceCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                 Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                 uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PowerSourceCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // PressureMeasurement Cluster Commands
 // PressureMeasurement Cluster Attributes
 CHIP_ERROR PressureMeasurementCluster::ReadAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback,
@@ -9466,6 +13002,23 @@ CHIP_ERROR PressureMeasurementCluster::ReadAttributeMinMeasuredValue(Callback::C
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR PressureMeasurementCluster::SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PressureMeasurement::Attributes::MinMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PressureMeasurementCluster::ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PressureMeasurement::Attributes::MinMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR PressureMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -9477,6 +13030,23 @@ CHIP_ERROR PressureMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback::C
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR PressureMeasurementCluster::SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PressureMeasurement::Attributes::MaxMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PressureMeasurementCluster::ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PressureMeasurement::Attributes::MaxMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR PressureMeasurementCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -9488,6 +13058,23 @@ CHIP_ERROR PressureMeasurementCluster::ReadAttributeClusterRevision(Callback::Ca
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR PressureMeasurementCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                         Callback::Cancelable * onFailureCallback,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PressureMeasurementCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // PumpConfigurationAndControl Cluster Commands
 // PumpConfigurationAndControl Cluster Attributes
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxPressure(Callback::Cancelable * onSuccessCallback,
@@ -9501,6 +13088,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxPressure(Callback
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeMaxPressure(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::MaxPressure::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeMaxPressure(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::MaxPressure::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxSpeed(Callback::Cancelable * onSuccessCallback,
                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -9512,6 +13116,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxSpeed(Callback::C
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeMaxSpeed(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::MaxSpeed::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeMaxSpeed(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::MaxSpeed::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxFlow(Callback::Cancelable * onSuccessCallback,
                                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -9523,6 +13144,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxFlow(Callback::Ca
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeMaxFlow(Callback::Cancelable * onSuccessCallback,
+                                                                         Callback::Cancelable * onFailureCallback,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::MaxFlow::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeMaxFlow(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::MaxFlow::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMinConstPressure(Callback::Cancelable * onSuccessCallback,
                                                                              Callback::Cancelable * onFailureCallback)
 {
@@ -9534,6 +13172,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMinConstPressure(Cal
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeMinConstPressure(Callback::Cancelable * onSuccessCallback,
+                                                                                  Callback::Cancelable * onFailureCallback,
+                                                                                  uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::MinConstPressure::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeMinConstPressure(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::MinConstPressure::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxConstPressure(Callback::Cancelable * onSuccessCallback,
                                                                              Callback::Cancelable * onFailureCallback)
 {
@@ -9545,6 +13200,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxConstPressure(Cal
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeMaxConstPressure(Callback::Cancelable * onSuccessCallback,
+                                                                                  Callback::Cancelable * onFailureCallback,
+                                                                                  uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::MaxConstPressure::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeMaxConstPressure(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::MaxConstPressure::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMinCompPressure(Callback::Cancelable * onSuccessCallback,
                                                                             Callback::Cancelable * onFailureCallback)
 {
@@ -9556,6 +13228,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMinCompPressure(Call
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeMinCompPressure(Callback::Cancelable * onSuccessCallback,
+                                                                                 Callback::Cancelable * onFailureCallback,
+                                                                                 uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::MinCompPressure::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeMinCompPressure(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::MinCompPressure::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxCompPressure(Callback::Cancelable * onSuccessCallback,
                                                                             Callback::Cancelable * onFailureCallback)
 {
@@ -9567,6 +13256,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxCompPressure(Call
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeMaxCompPressure(Callback::Cancelable * onSuccessCallback,
+                                                                                 Callback::Cancelable * onFailureCallback,
+                                                                                 uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::MaxCompPressure::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeMaxCompPressure(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::MaxCompPressure::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMinConstSpeed(Callback::Cancelable * onSuccessCallback,
                                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -9578,6 +13284,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMinConstSpeed(Callba
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeMinConstSpeed(Callback::Cancelable * onSuccessCallback,
+                                                                               Callback::Cancelable * onFailureCallback,
+                                                                               uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::MinConstSpeed::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeMinConstSpeed(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::MinConstSpeed::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxConstSpeed(Callback::Cancelable * onSuccessCallback,
                                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -9589,6 +13312,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxConstSpeed(Callba
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeMaxConstSpeed(Callback::Cancelable * onSuccessCallback,
+                                                                               Callback::Cancelable * onFailureCallback,
+                                                                               uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::MaxConstSpeed::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeMaxConstSpeed(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::MaxConstSpeed::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMinConstFlow(Callback::Cancelable * onSuccessCallback,
                                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -9600,6 +13340,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMinConstFlow(Callbac
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeMinConstFlow(Callback::Cancelable * onSuccessCallback,
+                                                                              Callback::Cancelable * onFailureCallback,
+                                                                              uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::MinConstFlow::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeMinConstFlow(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::MinConstFlow::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxConstFlow(Callback::Cancelable * onSuccessCallback,
                                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -9611,6 +13368,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxConstFlow(Callbac
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeMaxConstFlow(Callback::Cancelable * onSuccessCallback,
+                                                                              Callback::Cancelable * onFailureCallback,
+                                                                              uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::MaxConstFlow::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeMaxConstFlow(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::MaxConstFlow::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMinConstTemp(Callback::Cancelable * onSuccessCallback,
                                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -9622,6 +13396,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMinConstTemp(Callbac
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeMinConstTemp(Callback::Cancelable * onSuccessCallback,
+                                                                              Callback::Cancelable * onFailureCallback,
+                                                                              uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::MinConstTemp::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeMinConstTemp(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::MinConstTemp::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxConstTemp(Callback::Cancelable * onSuccessCallback,
                                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -9633,6 +13424,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxConstTemp(Callbac
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeMaxConstTemp(Callback::Cancelable * onSuccessCallback,
+                                                                              Callback::Cancelable * onFailureCallback,
+                                                                              uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::MaxConstTemp::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeMaxConstTemp(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::MaxConstTemp::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributePumpStatus(Callback::Cancelable * onSuccessCallback,
                                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -9672,6 +13480,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeEffectiveOperationMo
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeEffectiveOperationMode(Callback::Cancelable * onSuccessCallback,
+                                                                                        Callback::Cancelable * onFailureCallback,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::EffectiveOperationMode::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeEffectiveOperationMode(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::EffectiveOperationMode::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeEffectiveControlMode(Callback::Cancelable * onSuccessCallback,
                                                                                  Callback::Cancelable * onFailureCallback)
 {
@@ -9683,6 +13508,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeEffectiveControlMode
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeEffectiveControlMode(Callback::Cancelable * onSuccessCallback,
+                                                                                      Callback::Cancelable * onFailureCallback,
+                                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::EffectiveControlMode::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeEffectiveControlMode(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::EffectiveControlMode::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeCapacity(Callback::Cancelable * onSuccessCallback,
                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -9722,6 +13564,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeSpeed(Callback::Canc
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeSpeed(Callback::Cancelable * onSuccessCallback,
+                                                                       Callback::Cancelable * onFailureCallback,
+                                                                       uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::Speed::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeSpeed(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::Speed::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeLifetimeEnergyConsumed(Callback::Cancelable * onSuccessCallback,
                                                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -9733,6 +13592,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeLifetimeEnergyConsum
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeLifetimeEnergyConsumed(Callback::Cancelable * onSuccessCallback,
+                                                                                        Callback::Cancelable * onFailureCallback,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::LifetimeEnergyConsumed::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeLifetimeEnergyConsumed(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::LifetimeEnergyConsumed::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeOperationMode(Callback::Cancelable * onSuccessCallback,
                                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -9755,6 +13631,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::WriteAttributeOperationMode(Callb
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeOperationMode(Callback::Cancelable * onSuccessCallback,
+                                                                               Callback::Cancelable * onFailureCallback,
+                                                                               uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::OperationMode::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeOperationMode(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::OperationMode::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeControlMode(Callback::Cancelable * onSuccessCallback,
                                                                         Callback::Cancelable * onFailureCallback)
 {
@@ -9777,6 +13670,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::WriteAttributeControlMode(Callbac
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeControlMode(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::ControlMode::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeControlMode(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::ControlMode::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeAlarmMask(Callback::Cancelable * onSuccessCallback,
                                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -9788,6 +13698,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeAlarmMask(Callback::
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeAlarmMask(Callback::Cancelable * onSuccessCallback,
+                                                                           Callback::Cancelable * onFailureCallback,
+                                                                           uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::AlarmMask::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeAlarmMask(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::AlarmMask::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeFeatureMap(Callback::Cancelable * onSuccessCallback,
                                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -9799,6 +13726,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeFeatureMap(Callback:
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeFeatureMap(Callback::Cancelable * onSuccessCallback,
+                                                                            Callback::Cancelable * onFailureCallback,
+                                                                            uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::FeatureMap::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeFeatureMap(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::FeatureMap::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                             Callback::Cancelable * onFailureCallback)
 {
@@ -9810,6 +13754,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeClusterRevision(Call
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                                 Callback::Cancelable * onFailureCallback,
+                                                                                 uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // RelativeHumidityMeasurement Cluster Commands
 // RelativeHumidityMeasurement Cluster Attributes
 CHIP_ERROR RelativeHumidityMeasurementCluster::ReadAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback,
@@ -9851,6 +13812,23 @@ CHIP_ERROR RelativeHumidityMeasurementCluster::ReadAttributeMinMeasuredValue(Cal
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR RelativeHumidityMeasurementCluster::SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                                  Callback::Cancelable * onFailureCallback,
+                                                                                  uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = RelativeHumidityMeasurement::Attributes::MinMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR RelativeHumidityMeasurementCluster::ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(RelativeHumidityMeasurement::Attributes::MinMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR RelativeHumidityMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
                                                                              Callback::Cancelable * onFailureCallback)
 {
@@ -9862,6 +13840,23 @@ CHIP_ERROR RelativeHumidityMeasurementCluster::ReadAttributeMaxMeasuredValue(Cal
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR RelativeHumidityMeasurementCluster::SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                                  Callback::Cancelable * onFailureCallback,
+                                                                                  uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = RelativeHumidityMeasurement::Attributes::MaxMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR RelativeHumidityMeasurementCluster::ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(RelativeHumidityMeasurement::Attributes::MaxMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR RelativeHumidityMeasurementCluster::ReadAttributeTolerance(Callback::Cancelable * onSuccessCallback,
                                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -9901,6 +13896,23 @@ CHIP_ERROR RelativeHumidityMeasurementCluster::ReadAttributeClusterRevision(Call
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR RelativeHumidityMeasurementCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                                 Callback::Cancelable * onFailureCallback,
+                                                                                 uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR RelativeHumidityMeasurementCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // Scenes Cluster Commands
 CHIP_ERROR ScenesCluster::AddScene(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                    uint16_t groupId, uint8_t sceneId, uint16_t transitionTime, chip::CharSpan sceneName,
@@ -10224,6 +14236,23 @@ CHIP_ERROR ScenesCluster::ReadAttributeSceneCount(Callback::Cancelable * onSucce
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ScenesCluster::SubscribeAttributeSceneCount(Callback::Cancelable * onSuccessCallback,
+                                                       Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                       uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Scenes::Attributes::SceneCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ScenesCluster::ReportAttributeSceneCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Scenes::Attributes::SceneCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ScenesCluster::ReadAttributeCurrentScene(Callback::Cancelable * onSuccessCallback,
                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -10235,6 +14264,23 @@ CHIP_ERROR ScenesCluster::ReadAttributeCurrentScene(Callback::Cancelable * onSuc
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ScenesCluster::SubscribeAttributeCurrentScene(Callback::Cancelable * onSuccessCallback,
+                                                         Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                         uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Scenes::Attributes::CurrentScene::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ScenesCluster::ReportAttributeCurrentScene(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Scenes::Attributes::CurrentScene::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ScenesCluster::ReadAttributeCurrentGroup(Callback::Cancelable * onSuccessCallback,
                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -10246,6 +14292,23 @@ CHIP_ERROR ScenesCluster::ReadAttributeCurrentGroup(Callback::Cancelable * onSuc
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ScenesCluster::SubscribeAttributeCurrentGroup(Callback::Cancelable * onSuccessCallback,
+                                                         Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                         uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Scenes::Attributes::CurrentGroup::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ScenesCluster::ReportAttributeCurrentGroup(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Scenes::Attributes::CurrentGroup::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ScenesCluster::ReadAttributeSceneValid(Callback::Cancelable * onSuccessCallback,
                                                   Callback::Cancelable * onFailureCallback)
 {
@@ -10257,6 +14320,23 @@ CHIP_ERROR ScenesCluster::ReadAttributeSceneValid(Callback::Cancelable * onSucce
                                              BasicAttributeFilter<BooleanAttributeCallback>);
 }
 
+CHIP_ERROR ScenesCluster::SubscribeAttributeSceneValid(Callback::Cancelable * onSuccessCallback,
+                                                       Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                       uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Scenes::Attributes::SceneValid::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ScenesCluster::ReportAttributeSceneValid(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Scenes::Attributes::SceneValid::Id, onReportCallback,
+                                     BasicAttributeFilter<BooleanAttributeCallback>);
+}
+
 CHIP_ERROR ScenesCluster::ReadAttributeNameSupport(Callback::Cancelable * onSuccessCallback,
                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -10268,6 +14348,23 @@ CHIP_ERROR ScenesCluster::ReadAttributeNameSupport(Callback::Cancelable * onSucc
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ScenesCluster::SubscribeAttributeNameSupport(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Scenes::Attributes::NameSupport::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ScenesCluster::ReportAttributeNameSupport(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Scenes::Attributes::NameSupport::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ScenesCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -10279,6 +14376,23 @@ CHIP_ERROR ScenesCluster::ReadAttributeClusterRevision(Callback::Cancelable * on
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ScenesCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ScenesCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // SoftwareDiagnostics Cluster Commands
 CHIP_ERROR SoftwareDiagnosticsCluster::ResetWatermarks(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
@@ -10343,6 +14457,23 @@ CHIP_ERROR SoftwareDiagnosticsCluster::ReadAttributeCurrentHeapFree(Callback::Ca
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR SoftwareDiagnosticsCluster::SubscribeAttributeCurrentHeapFree(Callback::Cancelable * onSuccessCallback,
+                                                                         Callback::Cancelable * onFailureCallback,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = SoftwareDiagnostics::Attributes::CurrentHeapFree::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR SoftwareDiagnosticsCluster::ReportAttributeCurrentHeapFree(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(SoftwareDiagnostics::Attributes::CurrentHeapFree::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR SoftwareDiagnosticsCluster::ReadAttributeCurrentHeapUsed(Callback::Cancelable * onSuccessCallback,
                                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -10354,6 +14485,23 @@ CHIP_ERROR SoftwareDiagnosticsCluster::ReadAttributeCurrentHeapUsed(Callback::Ca
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR SoftwareDiagnosticsCluster::SubscribeAttributeCurrentHeapUsed(Callback::Cancelable * onSuccessCallback,
+                                                                         Callback::Cancelable * onFailureCallback,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = SoftwareDiagnostics::Attributes::CurrentHeapUsed::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR SoftwareDiagnosticsCluster::ReportAttributeCurrentHeapUsed(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(SoftwareDiagnostics::Attributes::CurrentHeapUsed::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR SoftwareDiagnosticsCluster::ReadAttributeCurrentHeapHighWatermark(Callback::Cancelable * onSuccessCallback,
                                                                              Callback::Cancelable * onFailureCallback)
 {
@@ -10365,6 +14513,23 @@ CHIP_ERROR SoftwareDiagnosticsCluster::ReadAttributeCurrentHeapHighWatermark(Cal
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR SoftwareDiagnosticsCluster::SubscribeAttributeCurrentHeapHighWatermark(Callback::Cancelable * onSuccessCallback,
+                                                                                  Callback::Cancelable * onFailureCallback,
+                                                                                  uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = SoftwareDiagnostics::Attributes::CurrentHeapHighWatermark::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR SoftwareDiagnosticsCluster::ReportAttributeCurrentHeapHighWatermark(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(SoftwareDiagnostics::Attributes::CurrentHeapHighWatermark::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR SoftwareDiagnosticsCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -10376,7 +14541,24 @@ CHIP_ERROR SoftwareDiagnosticsCluster::ReadAttributeClusterRevision(Callback::Ca
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
-// Switch Cluster Commands
+CHIP_ERROR SoftwareDiagnosticsCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                         Callback::Cancelable * onFailureCallback,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR SoftwareDiagnosticsCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
+// Switch Cluster Commands
 // Switch Cluster Attributes
 CHIP_ERROR SwitchCluster::ReadAttributeNumberOfPositions(Callback::Cancelable * onSuccessCallback,
                                                          Callback::Cancelable * onFailureCallback)
@@ -10389,6 +14571,23 @@ CHIP_ERROR SwitchCluster::ReadAttributeNumberOfPositions(Callback::Cancelable *
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR SwitchCluster::SubscribeAttributeNumberOfPositions(Callback::Cancelable * onSuccessCallback,
+                                                              Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                              uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Switch::Attributes::NumberOfPositions::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR SwitchCluster::ReportAttributeNumberOfPositions(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Switch::Attributes::NumberOfPositions::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR SwitchCluster::ReadAttributeCurrentPosition(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -10428,6 +14627,23 @@ CHIP_ERROR SwitchCluster::ReadAttributeMultiPressMax(Callback::Cancelable * onSu
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR SwitchCluster::SubscribeAttributeMultiPressMax(Callback::Cancelable * onSuccessCallback,
+                                                          Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                          uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Switch::Attributes::MultiPressMax::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR SwitchCluster::ReportAttributeMultiPressMax(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Switch::Attributes::MultiPressMax::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR SwitchCluster::ReadAttributeFeatureMap(Callback::Cancelable * onSuccessCallback,
                                                   Callback::Cancelable * onFailureCallback)
 {
@@ -10439,6 +14655,23 @@ CHIP_ERROR SwitchCluster::ReadAttributeFeatureMap(Callback::Cancelable * onSucce
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR SwitchCluster::SubscribeAttributeFeatureMap(Callback::Cancelable * onSuccessCallback,
+                                                       Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                       uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::FeatureMap::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR SwitchCluster::ReportAttributeFeatureMap(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::FeatureMap::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR SwitchCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -10450,6 +14683,23 @@ CHIP_ERROR SwitchCluster::ReadAttributeClusterRevision(Callback::Cancelable * on
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR SwitchCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR SwitchCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // TvChannel Cluster Commands
 CHIP_ERROR TvChannelCluster::ChangeChannel(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                            chip::CharSpan match)
@@ -10600,6 +14850,23 @@ CHIP_ERROR TvChannelCluster::ReadAttributeTvChannelLineup(Callback::Cancelable *
                                              BasicAttributeFilter<OctetStringAttributeCallback>);
 }
 
+CHIP_ERROR TvChannelCluster::SubscribeAttributeTvChannelLineup(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TvChannel::Attributes::TvChannelLineup::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TvChannelCluster::ReportAttributeTvChannelLineup(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TvChannel::Attributes::TvChannelLineup::Id, onReportCallback,
+                                     BasicAttributeFilter<OctetStringAttributeCallback>);
+}
+
 CHIP_ERROR TvChannelCluster::ReadAttributeCurrentTvChannel(Callback::Cancelable * onSuccessCallback,
                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -10611,6 +14878,23 @@ CHIP_ERROR TvChannelCluster::ReadAttributeCurrentTvChannel(Callback::Cancelable
                                              BasicAttributeFilter<OctetStringAttributeCallback>);
 }
 
+CHIP_ERROR TvChannelCluster::SubscribeAttributeCurrentTvChannel(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TvChannel::Attributes::CurrentTvChannel::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TvChannelCluster::ReportAttributeCurrentTvChannel(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TvChannel::Attributes::CurrentTvChannel::Id, onReportCallback,
+                                     BasicAttributeFilter<OctetStringAttributeCallback>);
+}
+
 CHIP_ERROR TvChannelCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -10622,6 +14906,23 @@ CHIP_ERROR TvChannelCluster::ReadAttributeClusterRevision(Callback::Cancelable *
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR TvChannelCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TvChannelCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // TargetNavigator Cluster Commands
 CHIP_ERROR TargetNavigatorCluster::NavigateTarget(Callback::Cancelable * onSuccessCallback,
                                                   Callback::Cancelable * onFailureCallback, uint8_t target, chip::CharSpan data)
@@ -10689,6 +14990,23 @@ CHIP_ERROR TargetNavigatorCluster::ReadAttributeClusterRevision(Callback::Cancel
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR TargetNavigatorCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                     uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TargetNavigatorCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // TemperatureMeasurement Cluster Commands
 // TemperatureMeasurement Cluster Attributes
 CHIP_ERROR TemperatureMeasurementCluster::ReadAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback,
@@ -10730,6 +15048,23 @@ CHIP_ERROR TemperatureMeasurementCluster::ReadAttributeMinMeasuredValue(Callback
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR TemperatureMeasurementCluster::SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TemperatureMeasurement::Attributes::MinMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TemperatureMeasurementCluster::ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TemperatureMeasurement::Attributes::MinMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR TemperatureMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
                                                                         Callback::Cancelable * onFailureCallback)
 {
@@ -10741,6 +15076,23 @@ CHIP_ERROR TemperatureMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR TemperatureMeasurementCluster::SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TemperatureMeasurement::Attributes::MaxMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TemperatureMeasurementCluster::ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TemperatureMeasurement::Attributes::MaxMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR TemperatureMeasurementCluster::ReadAttributeTolerance(Callback::Cancelable * onSuccessCallback,
                                                                  Callback::Cancelable * onFailureCallback)
 {
@@ -10780,6 +15132,23 @@ CHIP_ERROR TemperatureMeasurementCluster::ReadAttributeClusterRevision(Callback:
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR TemperatureMeasurementCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                            Callback::Cancelable * onFailureCallback,
+                                                                            uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TemperatureMeasurementCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // TestCluster Cluster Commands
 CHIP_ERROR TestClusterCluster::Test(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
 {
@@ -11275,6 +15644,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeBoolean(Callback::Cancelable * onSu
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeBoolean(Callback::Cancelable * onSuccessCallback,
+                                                         Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                         uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::Boolean::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeBoolean(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::Boolean::Id, onReportCallback,
+                                     BasicAttributeFilter<BooleanAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeBitmap8(Callback::Cancelable * onSuccessCallback,
                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -11297,6 +15683,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeBitmap8(Callback::Cancelable * onSu
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeBitmap8(Callback::Cancelable * onSuccessCallback,
+                                                         Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                         uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::Bitmap8::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeBitmap8(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::Bitmap8::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeBitmap16(Callback::Cancelable * onSuccessCallback,
                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -11319,6 +15722,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeBitmap16(Callback::Cancelable * onS
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeBitmap16(Callback::Cancelable * onSuccessCallback,
+                                                          Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                          uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::Bitmap16::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeBitmap16(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::Bitmap16::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeBitmap32(Callback::Cancelable * onSuccessCallback,
                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -11341,6 +15761,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeBitmap32(Callback::Cancelable * onS
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeBitmap32(Callback::Cancelable * onSuccessCallback,
+                                                          Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                          uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::Bitmap32::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeBitmap32(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::Bitmap32::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeBitmap64(Callback::Cancelable * onSuccessCallback,
                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -11363,6 +15800,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeBitmap64(Callback::Cancelable * onS
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeBitmap64(Callback::Cancelable * onSuccessCallback,
+                                                          Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                          uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::Bitmap64::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeBitmap64(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::Bitmap64::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeInt8u(Callback::Cancelable * onSuccessCallback,
                                                   Callback::Cancelable * onFailureCallback)
 {
@@ -11385,6 +15839,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeInt8u(Callback::Cancelable * onSucc
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeInt8u(Callback::Cancelable * onSuccessCallback,
+                                                       Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                       uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::Int8u::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeInt8u(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::Int8u::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeInt16u(Callback::Cancelable * onSuccessCallback,
                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -11407,6 +15878,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeInt16u(Callback::Cancelable * onSuc
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeInt16u(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::Int16u::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeInt16u(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::Int16u::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeInt32u(Callback::Cancelable * onSuccessCallback,
                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -11429,6 +15917,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeInt32u(Callback::Cancelable * onSuc
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeInt32u(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::Int32u::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeInt32u(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::Int32u::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeInt64u(Callback::Cancelable * onSuccessCallback,
                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -11451,6 +15956,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeInt64u(Callback::Cancelable * onSuc
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeInt64u(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::Int64u::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeInt64u(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::Int64u::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeInt8s(Callback::Cancelable * onSuccessCallback,
                                                   Callback::Cancelable * onFailureCallback)
 {
@@ -11473,6 +15995,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeInt8s(Callback::Cancelable * onSucc
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeInt8s(Callback::Cancelable * onSuccessCallback,
+                                                       Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                       uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::Int8s::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeInt8s(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::Int8s::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8sAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeInt16s(Callback::Cancelable * onSuccessCallback,
                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -11495,10 +16034,27 @@ CHIP_ERROR TestClusterCluster::WriteAttributeInt16s(Callback::Cancelable * onSuc
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
-CHIP_ERROR TestClusterCluster::ReadAttributeInt32s(Callback::Cancelable * onSuccessCallback,
-                                                   Callback::Cancelable * onFailureCallback)
+CHIP_ERROR TestClusterCluster::SubscribeAttributeInt16s(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval)
 {
-    app::AttributePathParams attributePath;
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::Int16s::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeInt16s(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::Int16s::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
+CHIP_ERROR TestClusterCluster::ReadAttributeInt32s(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback)
+{
+    app::AttributePathParams attributePath;
     attributePath.mEndpointId  = mEndpoint;
     attributePath.mClusterId   = mClusterId;
     attributePath.mAttributeId = 0x00000010;
@@ -11517,6 +16073,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeInt32s(Callback::Cancelable * onSuc
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeInt32s(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::Int32s::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeInt32s(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::Int32s::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32sAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeInt64s(Callback::Cancelable * onSuccessCallback,
                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -11539,6 +16112,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeInt64s(Callback::Cancelable * onSuc
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeInt64s(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::Int64s::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeInt64s(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::Int64s::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64sAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeEnum8(Callback::Cancelable * onSuccessCallback,
                                                   Callback::Cancelable * onFailureCallback)
 {
@@ -11561,6 +16151,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeEnum8(Callback::Cancelable * onSucc
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeEnum8(Callback::Cancelable * onSuccessCallback,
+                                                       Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                       uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::Enum8::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeEnum8(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::Enum8::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeEnum16(Callback::Cancelable * onSuccessCallback,
                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -11583,6 +16190,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeEnum16(Callback::Cancelable * onSuc
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeEnum16(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::Enum16::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeEnum16(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::Enum16::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeOctetString(Callback::Cancelable * onSuccessCallback,
                                                         Callback::Cancelable * onFailureCallback)
 {
@@ -11605,6 +16229,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeOctetString(Callback::Cancelable *
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeOctetString(Callback::Cancelable * onSuccessCallback,
+                                                             Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                             uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::OctetString::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeOctetString(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::OctetString::Id, onReportCallback,
+                                     BasicAttributeFilter<OctetStringAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeListInt8u(Callback::Cancelable * onSuccessCallback,
                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -11660,6 +16301,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeLongOctetString(Callback::Cancelabl
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeLongOctetString(Callback::Cancelable * onSuccessCallback,
+                                                                 Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                 uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::LongOctetString::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeLongOctetString(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::LongOctetString::Id, onReportCallback,
+                                     BasicAttributeFilter<OctetStringAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeCharString(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -11682,6 +16340,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeCharString(Callback::Cancelable * o
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeCharString(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::CharString::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeCharString(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::CharString::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeLongCharString(Callback::Cancelable * onSuccessCallback,
                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -11704,6 +16379,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeLongCharString(Callback::Cancelable
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeLongCharString(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::LongCharString::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeLongCharString(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::LongCharString::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeEpochUs(Callback::Cancelable * onSuccessCallback,
                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -11726,6 +16418,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeEpochUs(Callback::Cancelable * onSu
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeEpochUs(Callback::Cancelable * onSuccessCallback,
+                                                         Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                         uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::EpochUs::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeEpochUs(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::EpochUs::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeEpochS(Callback::Cancelable * onSuccessCallback,
                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -11748,6 +16457,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeEpochS(Callback::Cancelable * onSuc
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeEpochS(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::EpochS::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeEpochS(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::EpochS::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeVendorId(Callback::Cancelable * onSuccessCallback,
                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -11770,6 +16496,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeVendorId(Callback::Cancelable * onS
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeVendorId(Callback::Cancelable * onSuccessCallback,
+                                                          Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                          uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::VendorId::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeVendorId(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::VendorId::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeListNullablesAndOptionalsStruct(Callback::Cancelable * onSuccessCallback,
                                                                             Callback::Cancelable * onFailureCallback)
 {
@@ -11803,6 +16546,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeUnsupported(Callback::Cancelable *
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeUnsupported(Callback::Cancelable * onSuccessCallback,
+                                                             Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                             uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::Unsupported::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeUnsupported(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::Unsupported::Id, onReportCallback,
+                                     BasicAttributeFilter<BooleanAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeNullableBoolean(Callback::Cancelable * onSuccessCallback,
                                                             Callback::Cancelable * onFailureCallback)
 {
@@ -11825,6 +16585,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeNullableBoolean(Callback::Cancelabl
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeNullableBoolean(Callback::Cancelable * onSuccessCallback,
+                                                                 Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                 uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::NullableBoolean::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeNullableBoolean(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::NullableBoolean::Id, onReportCallback,
+                                     BasicAttributeFilter<BooleanAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeNullableBitmap8(Callback::Cancelable * onSuccessCallback,
                                                             Callback::Cancelable * onFailureCallback)
 {
@@ -11847,6 +16624,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeNullableBitmap8(Callback::Cancelabl
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeNullableBitmap8(Callback::Cancelable * onSuccessCallback,
+                                                                 Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                 uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::NullableBitmap8::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeNullableBitmap8(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::NullableBitmap8::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeNullableBitmap16(Callback::Cancelable * onSuccessCallback,
                                                              Callback::Cancelable * onFailureCallback)
 {
@@ -11869,6 +16663,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeNullableBitmap16(Callback::Cancelab
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeNullableBitmap16(Callback::Cancelable * onSuccessCallback,
+                                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                  uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::NullableBitmap16::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeNullableBitmap16(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::NullableBitmap16::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeNullableBitmap32(Callback::Cancelable * onSuccessCallback,
                                                              Callback::Cancelable * onFailureCallback)
 {
@@ -11891,6 +16702,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeNullableBitmap32(Callback::Cancelab
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeNullableBitmap32(Callback::Cancelable * onSuccessCallback,
+                                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                  uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::NullableBitmap32::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeNullableBitmap32(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::NullableBitmap32::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeNullableBitmap64(Callback::Cancelable * onSuccessCallback,
                                                              Callback::Cancelable * onFailureCallback)
 {
@@ -11913,6 +16741,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeNullableBitmap64(Callback::Cancelab
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeNullableBitmap64(Callback::Cancelable * onSuccessCallback,
+                                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                  uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::NullableBitmap64::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeNullableBitmap64(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::NullableBitmap64::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeNullableInt8u(Callback::Cancelable * onSuccessCallback,
                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -11935,6 +16780,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeNullableInt8u(Callback::Cancelable
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeNullableInt8u(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::NullableInt8u::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeNullableInt8u(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::NullableInt8u::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeNullableInt16u(Callback::Cancelable * onSuccessCallback,
                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -11957,6 +16819,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeNullableInt16u(Callback::Cancelable
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeNullableInt16u(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::NullableInt16u::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeNullableInt16u(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::NullableInt16u::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeNullableInt32u(Callback::Cancelable * onSuccessCallback,
                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -11979,18 +16858,35 @@ CHIP_ERROR TestClusterCluster::WriteAttributeNullableInt32u(Callback::Cancelable
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
-CHIP_ERROR TestClusterCluster::ReadAttributeNullableInt64u(Callback::Cancelable * onSuccessCallback,
-                                                           Callback::Cancelable * onFailureCallback)
+CHIP_ERROR TestClusterCluster::SubscribeAttributeNullableInt32u(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
 {
-    app::AttributePathParams attributePath;
+    chip::app::AttributePathParams attributePath;
     attributePath.mEndpointId  = mEndpoint;
     attributePath.mClusterId   = mClusterId;
-    attributePath.mAttributeId = 0x0000800C;
-    return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
-                                             BasicAttributeFilter<Int64uAttributeCallback>);
+    attributePath.mAttributeId = TestCluster::Attributes::NullableInt32u::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
 }
 
-CHIP_ERROR TestClusterCluster::WriteAttributeNullableInt64u(Callback::Cancelable * onSuccessCallback,
+CHIP_ERROR TestClusterCluster::ReportAttributeNullableInt32u(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::NullableInt32u::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
+CHIP_ERROR TestClusterCluster::ReadAttributeNullableInt64u(Callback::Cancelable * onSuccessCallback,
+                                                           Callback::Cancelable * onFailureCallback)
+{
+    app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = 0x0000800C;
+    return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
+                                             BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
+CHIP_ERROR TestClusterCluster::WriteAttributeNullableInt64u(Callback::Cancelable * onSuccessCallback,
                                                             Callback::Cancelable * onFailureCallback, uint64_t value)
 {
     app::WriteClientHandle handle;
@@ -12001,6 +16897,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeNullableInt64u(Callback::Cancelable
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeNullableInt64u(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::NullableInt64u::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeNullableInt64u(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::NullableInt64u::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeNullableInt8s(Callback::Cancelable * onSuccessCallback,
                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -12023,6 +16936,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeNullableInt8s(Callback::Cancelable
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeNullableInt8s(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::NullableInt8s::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeNullableInt8s(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::NullableInt8s::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8sAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeNullableInt16s(Callback::Cancelable * onSuccessCallback,
                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -12045,6 +16975,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeNullableInt16s(Callback::Cancelable
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeNullableInt16s(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::NullableInt16s::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeNullableInt16s(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::NullableInt16s::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeNullableInt32s(Callback::Cancelable * onSuccessCallback,
                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -12067,6 +17014,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeNullableInt32s(Callback::Cancelable
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeNullableInt32s(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::NullableInt32s::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeNullableInt32s(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::NullableInt32s::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32sAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeNullableInt64s(Callback::Cancelable * onSuccessCallback,
                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -12089,6 +17053,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeNullableInt64s(Callback::Cancelable
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeNullableInt64s(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::NullableInt64s::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeNullableInt64s(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::NullableInt64s::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64sAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeNullableEnum8(Callback::Cancelable * onSuccessCallback,
                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -12111,6 +17092,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeNullableEnum8(Callback::Cancelable
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeNullableEnum8(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::NullableEnum8::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeNullableEnum8(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::NullableEnum8::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeNullableEnum16(Callback::Cancelable * onSuccessCallback,
                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -12133,6 +17131,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeNullableEnum16(Callback::Cancelable
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeNullableEnum16(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::NullableEnum16::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeNullableEnum16(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::NullableEnum16::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeNullableOctetString(Callback::Cancelable * onSuccessCallback,
                                                                 Callback::Cancelable * onFailureCallback)
 {
@@ -12155,6 +17170,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeNullableOctetString(Callback::Cance
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeNullableOctetString(Callback::Cancelable * onSuccessCallback,
+                                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                     uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::NullableOctetString::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeNullableOctetString(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::NullableOctetString::Id, onReportCallback,
+                                     BasicAttributeFilter<OctetStringAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeNullableCharString(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -12177,6 +17209,23 @@ CHIP_ERROR TestClusterCluster::WriteAttributeNullableCharString(Callback::Cancel
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeNullableCharString(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TestCluster::Attributes::NullableCharString::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeNullableCharString(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TestCluster::Attributes::NullableCharString::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR TestClusterCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                             Callback::Cancelable * onFailureCallback)
 {
@@ -12188,6 +17237,23 @@ CHIP_ERROR TestClusterCluster::ReadAttributeClusterRevision(Callback::Cancelable
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR TestClusterCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                 Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                 uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TestClusterCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // Thermostat Cluster Commands
 CHIP_ERROR ThermostatCluster::ClearWeeklySchedule(Callback::Cancelable * onSuccessCallback,
                                                   Callback::Cancelable * onFailureCallback)
@@ -12440,6 +17506,23 @@ CHIP_ERROR ThermostatCluster::ReadAttributeAbsMinHeatSetpointLimit(Callback::Can
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR ThermostatCluster::SubscribeAttributeAbsMinHeatSetpointLimit(Callback::Cancelable * onSuccessCallback,
+                                                                        Callback::Cancelable * onFailureCallback,
+                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Thermostat::Attributes::AbsMinHeatSetpointLimit::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatCluster::ReportAttributeAbsMinHeatSetpointLimit(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Thermostat::Attributes::AbsMinHeatSetpointLimit::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR ThermostatCluster::ReadAttributeAbsMaxHeatSetpointLimit(Callback::Cancelable * onSuccessCallback,
                                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -12451,6 +17534,23 @@ CHIP_ERROR ThermostatCluster::ReadAttributeAbsMaxHeatSetpointLimit(Callback::Can
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR ThermostatCluster::SubscribeAttributeAbsMaxHeatSetpointLimit(Callback::Cancelable * onSuccessCallback,
+                                                                        Callback::Cancelable * onFailureCallback,
+                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Thermostat::Attributes::AbsMaxHeatSetpointLimit::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatCluster::ReportAttributeAbsMaxHeatSetpointLimit(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Thermostat::Attributes::AbsMaxHeatSetpointLimit::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR ThermostatCluster::ReadAttributeAbsMinCoolSetpointLimit(Callback::Cancelable * onSuccessCallback,
                                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -12462,6 +17562,23 @@ CHIP_ERROR ThermostatCluster::ReadAttributeAbsMinCoolSetpointLimit(Callback::Can
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR ThermostatCluster::SubscribeAttributeAbsMinCoolSetpointLimit(Callback::Cancelable * onSuccessCallback,
+                                                                        Callback::Cancelable * onFailureCallback,
+                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Thermostat::Attributes::AbsMinCoolSetpointLimit::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatCluster::ReportAttributeAbsMinCoolSetpointLimit(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Thermostat::Attributes::AbsMinCoolSetpointLimit::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR ThermostatCluster::ReadAttributeAbsMaxCoolSetpointLimit(Callback::Cancelable * onSuccessCallback,
                                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -12473,6 +17590,23 @@ CHIP_ERROR ThermostatCluster::ReadAttributeAbsMaxCoolSetpointLimit(Callback::Can
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR ThermostatCluster::SubscribeAttributeAbsMaxCoolSetpointLimit(Callback::Cancelable * onSuccessCallback,
+                                                                        Callback::Cancelable * onFailureCallback,
+                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Thermostat::Attributes::AbsMaxCoolSetpointLimit::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatCluster::ReportAttributeAbsMaxCoolSetpointLimit(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Thermostat::Attributes::AbsMaxCoolSetpointLimit::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR ThermostatCluster::ReadAttributeOccupiedCoolingSetpoint(Callback::Cancelable * onSuccessCallback,
                                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -12495,6 +17629,23 @@ CHIP_ERROR ThermostatCluster::WriteAttributeOccupiedCoolingSetpoint(Callback::Ca
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ThermostatCluster::SubscribeAttributeOccupiedCoolingSetpoint(Callback::Cancelable * onSuccessCallback,
+                                                                        Callback::Cancelable * onFailureCallback,
+                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Thermostat::Attributes::OccupiedCoolingSetpoint::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatCluster::ReportAttributeOccupiedCoolingSetpoint(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Thermostat::Attributes::OccupiedCoolingSetpoint::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR ThermostatCluster::ReadAttributeOccupiedHeatingSetpoint(Callback::Cancelable * onSuccessCallback,
                                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -12517,6 +17668,23 @@ CHIP_ERROR ThermostatCluster::WriteAttributeOccupiedHeatingSetpoint(Callback::Ca
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ThermostatCluster::SubscribeAttributeOccupiedHeatingSetpoint(Callback::Cancelable * onSuccessCallback,
+                                                                        Callback::Cancelable * onFailureCallback,
+                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Thermostat::Attributes::OccupiedHeatingSetpoint::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatCluster::ReportAttributeOccupiedHeatingSetpoint(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Thermostat::Attributes::OccupiedHeatingSetpoint::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR ThermostatCluster::ReadAttributeMinHeatSetpointLimit(Callback::Cancelable * onSuccessCallback,
                                                                 Callback::Cancelable * onFailureCallback)
 {
@@ -12539,6 +17707,23 @@ CHIP_ERROR ThermostatCluster::WriteAttributeMinHeatSetpointLimit(Callback::Cance
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ThermostatCluster::SubscribeAttributeMinHeatSetpointLimit(Callback::Cancelable * onSuccessCallback,
+                                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                     uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Thermostat::Attributes::MinHeatSetpointLimit::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatCluster::ReportAttributeMinHeatSetpointLimit(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Thermostat::Attributes::MinHeatSetpointLimit::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR ThermostatCluster::ReadAttributeMaxHeatSetpointLimit(Callback::Cancelable * onSuccessCallback,
                                                                 Callback::Cancelable * onFailureCallback)
 {
@@ -12561,6 +17746,23 @@ CHIP_ERROR ThermostatCluster::WriteAttributeMaxHeatSetpointLimit(Callback::Cance
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ThermostatCluster::SubscribeAttributeMaxHeatSetpointLimit(Callback::Cancelable * onSuccessCallback,
+                                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                     uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Thermostat::Attributes::MaxHeatSetpointLimit::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatCluster::ReportAttributeMaxHeatSetpointLimit(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Thermostat::Attributes::MaxHeatSetpointLimit::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR ThermostatCluster::ReadAttributeMinCoolSetpointLimit(Callback::Cancelable * onSuccessCallback,
                                                                 Callback::Cancelable * onFailureCallback)
 {
@@ -12583,6 +17785,23 @@ CHIP_ERROR ThermostatCluster::WriteAttributeMinCoolSetpointLimit(Callback::Cance
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ThermostatCluster::SubscribeAttributeMinCoolSetpointLimit(Callback::Cancelable * onSuccessCallback,
+                                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                     uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Thermostat::Attributes::MinCoolSetpointLimit::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatCluster::ReportAttributeMinCoolSetpointLimit(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Thermostat::Attributes::MinCoolSetpointLimit::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR ThermostatCluster::ReadAttributeMaxCoolSetpointLimit(Callback::Cancelable * onSuccessCallback,
                                                                 Callback::Cancelable * onFailureCallback)
 {
@@ -12605,6 +17824,23 @@ CHIP_ERROR ThermostatCluster::WriteAttributeMaxCoolSetpointLimit(Callback::Cance
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ThermostatCluster::SubscribeAttributeMaxCoolSetpointLimit(Callback::Cancelable * onSuccessCallback,
+                                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                     uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Thermostat::Attributes::MaxCoolSetpointLimit::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatCluster::ReportAttributeMaxCoolSetpointLimit(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Thermostat::Attributes::MaxCoolSetpointLimit::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR ThermostatCluster::ReadAttributeMinSetpointDeadBand(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -12627,15 +17863,32 @@ CHIP_ERROR ThermostatCluster::WriteAttributeMinSetpointDeadBand(Callback::Cancel
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
-CHIP_ERROR ThermostatCluster::ReadAttributeControlSequenceOfOperation(Callback::Cancelable * onSuccessCallback,
-                                                                      Callback::Cancelable * onFailureCallback)
+CHIP_ERROR ThermostatCluster::SubscribeAttributeMinSetpointDeadBand(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
 {
-    app::AttributePathParams attributePath;
+    chip::app::AttributePathParams attributePath;
     attributePath.mEndpointId  = mEndpoint;
     attributePath.mClusterId   = mClusterId;
-    attributePath.mAttributeId = 0x0000001B;
-    return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
-                                             BasicAttributeFilter<Int8uAttributeCallback>);
+    attributePath.mAttributeId = Thermostat::Attributes::MinSetpointDeadBand::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatCluster::ReportAttributeMinSetpointDeadBand(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Thermostat::Attributes::MinSetpointDeadBand::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8sAttributeCallback>);
+}
+
+CHIP_ERROR ThermostatCluster::ReadAttributeControlSequenceOfOperation(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback)
+{
+    app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = 0x0000001B;
+    return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
+                                             BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
 CHIP_ERROR ThermostatCluster::WriteAttributeControlSequenceOfOperation(Callback::Cancelable * onSuccessCallback,
@@ -12649,6 +17902,23 @@ CHIP_ERROR ThermostatCluster::WriteAttributeControlSequenceOfOperation(Callback:
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ThermostatCluster::SubscribeAttributeControlSequenceOfOperation(Callback::Cancelable * onSuccessCallback,
+                                                                           Callback::Cancelable * onFailureCallback,
+                                                                           uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Thermostat::Attributes::ControlSequenceOfOperation::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatCluster::ReportAttributeControlSequenceOfOperation(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Thermostat::Attributes::ControlSequenceOfOperation::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ThermostatCluster::ReadAttributeSystemMode(Callback::Cancelable * onSuccessCallback,
                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -12671,6 +17941,23 @@ CHIP_ERROR ThermostatCluster::WriteAttributeSystemMode(Callback::Cancelable * on
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ThermostatCluster::SubscribeAttributeSystemMode(Callback::Cancelable * onSuccessCallback,
+                                                           Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                           uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Thermostat::Attributes::SystemMode::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatCluster::ReportAttributeSystemMode(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Thermostat::Attributes::SystemMode::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ThermostatCluster::ReadAttributeStartOfWeek(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -12682,6 +17969,23 @@ CHIP_ERROR ThermostatCluster::ReadAttributeStartOfWeek(Callback::Cancelable * on
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ThermostatCluster::SubscribeAttributeStartOfWeek(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Thermostat::Attributes::StartOfWeek::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatCluster::ReportAttributeStartOfWeek(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Thermostat::Attributes::StartOfWeek::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ThermostatCluster::ReadAttributeNumberOfWeeklyTransitions(Callback::Cancelable * onSuccessCallback,
                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -12693,6 +17997,23 @@ CHIP_ERROR ThermostatCluster::ReadAttributeNumberOfWeeklyTransitions(Callback::C
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ThermostatCluster::SubscribeAttributeNumberOfWeeklyTransitions(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Thermostat::Attributes::NumberOfWeeklyTransitions::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatCluster::ReportAttributeNumberOfWeeklyTransitions(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Thermostat::Attributes::NumberOfWeeklyTransitions::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ThermostatCluster::ReadAttributeNumberOfDailyTransitions(Callback::Cancelable * onSuccessCallback,
                                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -12704,6 +18025,23 @@ CHIP_ERROR ThermostatCluster::ReadAttributeNumberOfDailyTransitions(Callback::Ca
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ThermostatCluster::SubscribeAttributeNumberOfDailyTransitions(Callback::Cancelable * onSuccessCallback,
+                                                                         Callback::Cancelable * onFailureCallback,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Thermostat::Attributes::NumberOfDailyTransitions::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatCluster::ReportAttributeNumberOfDailyTransitions(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Thermostat::Attributes::NumberOfDailyTransitions::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ThermostatCluster::ReadAttributeFeatureMap(Callback::Cancelable * onSuccessCallback,
                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -12715,6 +18053,23 @@ CHIP_ERROR ThermostatCluster::ReadAttributeFeatureMap(Callback::Cancelable * onS
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThermostatCluster::SubscribeAttributeFeatureMap(Callback::Cancelable * onSuccessCallback,
+                                                           Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                           uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::FeatureMap::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatCluster::ReportAttributeFeatureMap(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::FeatureMap::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThermostatCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -12726,6 +18081,23 @@ CHIP_ERROR ThermostatCluster::ReadAttributeClusterRevision(Callback::Cancelable
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ThermostatCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // ThermostatUserInterfaceConfiguration Cluster Commands
 // ThermostatUserInterfaceConfiguration Cluster Attributes
 CHIP_ERROR
@@ -12753,6 +18125,23 @@ CHIP_ERROR ThermostatUserInterfaceConfigurationCluster::WriteAttributeTemperatur
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ThermostatUserInterfaceConfigurationCluster::SubscribeAttributeTemperatureDisplayMode(
+    Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback, uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThermostatUserInterfaceConfiguration::Attributes::TemperatureDisplayMode::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR
+ThermostatUserInterfaceConfigurationCluster::ReportAttributeTemperatureDisplayMode(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThermostatUserInterfaceConfiguration::Attributes::TemperatureDisplayMode::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ThermostatUserInterfaceConfigurationCluster::ReadAttributeKeypadLockout(Callback::Cancelable * onSuccessCallback,
                                                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -12777,6 +18166,23 @@ CHIP_ERROR ThermostatUserInterfaceConfigurationCluster::WriteAttributeKeypadLock
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ThermostatUserInterfaceConfigurationCluster::SubscribeAttributeKeypadLockout(Callback::Cancelable * onSuccessCallback,
+                                                                                        Callback::Cancelable * onFailureCallback,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThermostatUserInterfaceConfiguration::Attributes::KeypadLockout::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatUserInterfaceConfigurationCluster::ReportAttributeKeypadLockout(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThermostatUserInterfaceConfiguration::Attributes::KeypadLockout::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR
 ThermostatUserInterfaceConfigurationCluster::ReadAttributeScheduleProgrammingVisibility(Callback::Cancelable * onSuccessCallback,
                                                                                         Callback::Cancelable * onFailureCallback)
@@ -12802,6 +18208,23 @@ CHIP_ERROR ThermostatUserInterfaceConfigurationCluster::WriteAttributeSchedulePr
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR ThermostatUserInterfaceConfigurationCluster::SubscribeAttributeScheduleProgrammingVisibility(
+    Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback, uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThermostatUserInterfaceConfiguration::Attributes::ScheduleProgrammingVisibility::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR
+ThermostatUserInterfaceConfigurationCluster::ReportAttributeScheduleProgrammingVisibility(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThermostatUserInterfaceConfiguration::Attributes::ScheduleProgrammingVisibility::Id,
+                                     onReportCallback, BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ThermostatUserInterfaceConfigurationCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -12813,6 +18236,24 @@ CHIP_ERROR ThermostatUserInterfaceConfigurationCluster::ReadAttributeClusterRevi
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ThermostatUserInterfaceConfigurationCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                                          Callback::Cancelable * onFailureCallback,
+                                                                                          uint16_t minInterval,
+                                                                                          uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThermostatUserInterfaceConfigurationCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // ThreadNetworkDiagnostics Cluster Commands
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ResetCounts(Callback::Cancelable * onSuccessCallback,
                                                         Callback::Cancelable * onFailureCallback)
@@ -12866,6 +18307,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeChannel(Callback::Cance
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeChannel(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::Channel::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeChannel(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::Channel::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRoutingRole(Callback::Cancelable * onSuccessCallback,
                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -12877,6 +18335,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRoutingRole(Callback::C
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeRoutingRole(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::RoutingRole::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeRoutingRole(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::RoutingRole::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeNetworkName(Callback::Cancelable * onSuccessCallback,
                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -12888,6 +18363,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeNetworkName(Callback::C
                                              BasicAttributeFilter<OctetStringAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeNetworkName(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::NetworkName::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeNetworkName(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::NetworkName::Id, onReportCallback,
+                                     BasicAttributeFilter<OctetStringAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributePanId(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -12899,6 +18391,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributePanId(Callback::Cancela
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributePanId(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::PanId::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributePanId(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::PanId::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeExtendedPanId(Callback::Cancelable * onSuccessCallback,
                                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -12910,6 +18419,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeExtendedPanId(Callback:
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeExtendedPanId(Callback::Cancelable * onSuccessCallback,
+                                                                            Callback::Cancelable * onFailureCallback,
+                                                                            uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::ExtendedPanId::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeExtendedPanId(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::ExtendedPanId::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeMeshLocalPrefix(Callback::Cancelable * onSuccessCallback,
                                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -12921,6 +18447,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeMeshLocalPrefix(Callbac
                                              BasicAttributeFilter<OctetStringAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeMeshLocalPrefix(Callback::Cancelable * onSuccessCallback,
+                                                                              Callback::Cancelable * onFailureCallback,
+                                                                              uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::MeshLocalPrefix::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeMeshLocalPrefix(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::MeshLocalPrefix::Id, onReportCallback,
+                                     BasicAttributeFilter<OctetStringAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeOverrunCount(Callback::Cancelable * onSuccessCallback,
                                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -12932,6 +18475,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeOverrunCount(Callback::
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeOverrunCount(Callback::Cancelable * onSuccessCallback,
+                                                                           Callback::Cancelable * onFailureCallback,
+                                                                           uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::OverrunCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeOverrunCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::OverrunCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeNeighborTableList(Callback::Cancelable * onSuccessCallback,
                                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -12965,6 +18525,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributePartitionId(Callback::C
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributePartitionId(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::PartitionId::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributePartitionId(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::PartitionId::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeWeighting(Callback::Cancelable * onSuccessCallback,
                                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -12976,6 +18553,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeWeighting(Callback::Can
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeWeighting(Callback::Cancelable * onSuccessCallback,
+                                                                        Callback::Cancelable * onFailureCallback,
+                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::Weighting::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeWeighting(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::Weighting::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeDataVersion(Callback::Cancelable * onSuccessCallback,
                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -12987,6 +18581,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeDataVersion(Callback::C
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeDataVersion(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::DataVersion::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeDataVersion(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::DataVersion::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeStableDataVersion(Callback::Cancelable * onSuccessCallback,
                                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -12998,6 +18609,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeStableDataVersion(Callb
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeStableDataVersion(Callback::Cancelable * onSuccessCallback,
+                                                                                Callback::Cancelable * onFailureCallback,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::StableDataVersion::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeStableDataVersion(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::StableDataVersion::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeLeaderRouterId(Callback::Cancelable * onSuccessCallback,
                                                                         Callback::Cancelable * onFailureCallback)
 {
@@ -13009,6 +18637,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeLeaderRouterId(Callback
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeLeaderRouterId(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::LeaderRouterId::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeLeaderRouterId(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::LeaderRouterId::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeDetachedRoleCount(Callback::Cancelable * onSuccessCallback,
                                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -13020,6 +18665,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeDetachedRoleCount(Callb
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeDetachedRoleCount(Callback::Cancelable * onSuccessCallback,
+                                                                                Callback::Cancelable * onFailureCallback,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::DetachedRoleCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeDetachedRoleCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::DetachedRoleCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeChildRoleCount(Callback::Cancelable * onSuccessCallback,
                                                                         Callback::Cancelable * onFailureCallback)
 {
@@ -13031,6 +18693,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeChildRoleCount(Callback
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeChildRoleCount(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::ChildRoleCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeChildRoleCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::ChildRoleCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRouterRoleCount(Callback::Cancelable * onSuccessCallback,
                                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -13042,6 +18721,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRouterRoleCount(Callbac
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeRouterRoleCount(Callback::Cancelable * onSuccessCallback,
+                                                                              Callback::Cancelable * onFailureCallback,
+                                                                              uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::RouterRoleCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeRouterRoleCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::RouterRoleCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeLeaderRoleCount(Callback::Cancelable * onSuccessCallback,
                                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -13053,6 +18749,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeLeaderRoleCount(Callbac
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeLeaderRoleCount(Callback::Cancelable * onSuccessCallback,
+                                                                              Callback::Cancelable * onFailureCallback,
+                                                                              uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::LeaderRoleCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeLeaderRoleCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::LeaderRoleCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeAttachAttemptCount(Callback::Cancelable * onSuccessCallback,
                                                                             Callback::Cancelable * onFailureCallback)
 {
@@ -13064,6 +18777,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeAttachAttemptCount(Call
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeAttachAttemptCount(Callback::Cancelable * onSuccessCallback,
+                                                                                 Callback::Cancelable * onFailureCallback,
+                                                                                 uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::AttachAttemptCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeAttachAttemptCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::AttachAttemptCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributePartitionIdChangeCount(Callback::Cancelable * onSuccessCallback,
                                                                                 Callback::Cancelable * onFailureCallback)
 {
@@ -13075,6 +18805,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributePartitionIdChangeCount(
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributePartitionIdChangeCount(Callback::Cancelable * onSuccessCallback,
+                                                                                     Callback::Cancelable * onFailureCallback,
+                                                                                     uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::PartitionIdChangeCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributePartitionIdChangeCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::PartitionIdChangeCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeBetterPartitionAttachAttemptCount(Callback::Cancelable * onSuccessCallback,
                                                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -13086,6 +18833,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeBetterPartitionAttachAt
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeBetterPartitionAttachAttemptCount(
+    Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback, uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::BetterPartitionAttachAttemptCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR
+ThreadNetworkDiagnosticsCluster::ReportAttributeBetterPartitionAttachAttemptCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::BetterPartitionAttachAttemptCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeParentChangeCount(Callback::Cancelable * onSuccessCallback,
                                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -13097,6 +18861,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeParentChangeCount(Callb
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeParentChangeCount(Callback::Cancelable * onSuccessCallback,
+                                                                                Callback::Cancelable * onFailureCallback,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::ParentChangeCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeParentChangeCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::ParentChangeCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxTotalCount(Callback::Cancelable * onSuccessCallback,
                                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -13108,6 +18889,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxTotalCount(Callback::
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeTxTotalCount(Callback::Cancelable * onSuccessCallback,
+                                                                           Callback::Cancelable * onFailureCallback,
+                                                                           uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::TxTotalCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeTxTotalCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::TxTotalCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxUnicastCount(Callback::Cancelable * onSuccessCallback,
                                                                         Callback::Cancelable * onFailureCallback)
 {
@@ -13119,6 +18917,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxUnicastCount(Callback
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeTxUnicastCount(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::TxUnicastCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeTxUnicastCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::TxUnicastCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxBroadcastCount(Callback::Cancelable * onSuccessCallback,
                                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -13130,6 +18945,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxBroadcastCount(Callba
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeTxBroadcastCount(Callback::Cancelable * onSuccessCallback,
+                                                                               Callback::Cancelable * onFailureCallback,
+                                                                               uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::TxBroadcastCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeTxBroadcastCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::TxBroadcastCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxAckRequestedCount(Callback::Cancelable * onSuccessCallback,
                                                                              Callback::Cancelable * onFailureCallback)
 {
@@ -13141,6 +18973,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxAckRequestedCount(Cal
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeTxAckRequestedCount(Callback::Cancelable * onSuccessCallback,
+                                                                                  Callback::Cancelable * onFailureCallback,
+                                                                                  uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::TxAckRequestedCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeTxAckRequestedCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::TxAckRequestedCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxAckedCount(Callback::Cancelable * onSuccessCallback,
                                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -13152,6 +19001,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxAckedCount(Callback::
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeTxAckedCount(Callback::Cancelable * onSuccessCallback,
+                                                                           Callback::Cancelable * onFailureCallback,
+                                                                           uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::TxAckedCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeTxAckedCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::TxAckedCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxNoAckRequestedCount(Callback::Cancelable * onSuccessCallback,
                                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -13163,6 +19029,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxNoAckRequestedCount(C
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeTxNoAckRequestedCount(Callback::Cancelable * onSuccessCallback,
+                                                                                    Callback::Cancelable * onFailureCallback,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::TxNoAckRequestedCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeTxNoAckRequestedCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::TxNoAckRequestedCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxDataCount(Callback::Cancelable * onSuccessCallback,
                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -13174,6 +19057,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxDataCount(Callback::C
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeTxDataCount(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::TxDataCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeTxDataCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::TxDataCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxDataPollCount(Callback::Cancelable * onSuccessCallback,
                                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -13185,6 +19085,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxDataPollCount(Callbac
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeTxDataPollCount(Callback::Cancelable * onSuccessCallback,
+                                                                              Callback::Cancelable * onFailureCallback,
+                                                                              uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::TxDataPollCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeTxDataPollCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::TxDataPollCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxBeaconCount(Callback::Cancelable * onSuccessCallback,
                                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -13196,6 +19113,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxBeaconCount(Callback:
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeTxBeaconCount(Callback::Cancelable * onSuccessCallback,
+                                                                            Callback::Cancelable * onFailureCallback,
+                                                                            uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::TxBeaconCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeTxBeaconCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::TxBeaconCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxBeaconRequestCount(Callback::Cancelable * onSuccessCallback,
                                                                               Callback::Cancelable * onFailureCallback)
 {
@@ -13207,6 +19141,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxBeaconRequestCount(Ca
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeTxBeaconRequestCount(Callback::Cancelable * onSuccessCallback,
+                                                                                   Callback::Cancelable * onFailureCallback,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::TxBeaconRequestCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeTxBeaconRequestCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::TxBeaconRequestCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxOtherCount(Callback::Cancelable * onSuccessCallback,
                                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -13218,6 +19169,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxOtherCount(Callback::
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeTxOtherCount(Callback::Cancelable * onSuccessCallback,
+                                                                           Callback::Cancelable * onFailureCallback,
+                                                                           uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::TxOtherCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeTxOtherCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::TxOtherCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxRetryCount(Callback::Cancelable * onSuccessCallback,
                                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -13229,6 +19197,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxRetryCount(Callback::
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeTxRetryCount(Callback::Cancelable * onSuccessCallback,
+                                                                           Callback::Cancelable * onFailureCallback,
+                                                                           uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::TxRetryCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeTxRetryCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::TxRetryCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxDirectMaxRetryExpiryCount(Callback::Cancelable * onSuccessCallback,
                                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -13240,6 +19225,24 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxDirectMaxRetryExpiryC
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeTxDirectMaxRetryExpiryCount(Callback::Cancelable * onSuccessCallback,
+                                                                                          Callback::Cancelable * onFailureCallback,
+                                                                                          uint16_t minInterval,
+                                                                                          uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::TxDirectMaxRetryExpiryCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeTxDirectMaxRetryExpiryCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::TxDirectMaxRetryExpiryCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxIndirectMaxRetryExpiryCount(Callback::Cancelable * onSuccessCallback,
                                                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -13251,6 +19254,22 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxIndirectMaxRetryExpir
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeTxIndirectMaxRetryExpiryCount(
+    Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback, uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::TxIndirectMaxRetryExpiryCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeTxIndirectMaxRetryExpiryCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::TxIndirectMaxRetryExpiryCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxErrCcaCount(Callback::Cancelable * onSuccessCallback,
                                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -13262,6 +19281,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxErrCcaCount(Callback:
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeTxErrCcaCount(Callback::Cancelable * onSuccessCallback,
+                                                                            Callback::Cancelable * onFailureCallback,
+                                                                            uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::TxErrCcaCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeTxErrCcaCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::TxErrCcaCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxErrAbortCount(Callback::Cancelable * onSuccessCallback,
                                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -13273,6 +19309,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxErrAbortCount(Callbac
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeTxErrAbortCount(Callback::Cancelable * onSuccessCallback,
+                                                                              Callback::Cancelable * onFailureCallback,
+                                                                              uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::TxErrAbortCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeTxErrAbortCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::TxErrAbortCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxErrBusyChannelCount(Callback::Cancelable * onSuccessCallback,
                                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -13284,6 +19337,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeTxErrBusyChannelCount(C
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeTxErrBusyChannelCount(Callback::Cancelable * onSuccessCallback,
+                                                                                    Callback::Cancelable * onFailureCallback,
+                                                                                    uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::TxErrBusyChannelCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeTxErrBusyChannelCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::TxErrBusyChannelCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxTotalCount(Callback::Cancelable * onSuccessCallback,
                                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -13295,6 +19365,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxTotalCount(Callback::
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeRxTotalCount(Callback::Cancelable * onSuccessCallback,
+                                                                           Callback::Cancelable * onFailureCallback,
+                                                                           uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::RxTotalCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeRxTotalCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::RxTotalCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxUnicastCount(Callback::Cancelable * onSuccessCallback,
                                                                         Callback::Cancelable * onFailureCallback)
 {
@@ -13306,6 +19393,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxUnicastCount(Callback
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeRxUnicastCount(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::RxUnicastCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeRxUnicastCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::RxUnicastCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxBroadcastCount(Callback::Cancelable * onSuccessCallback,
                                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -13317,6 +19421,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxBroadcastCount(Callba
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeRxBroadcastCount(Callback::Cancelable * onSuccessCallback,
+                                                                               Callback::Cancelable * onFailureCallback,
+                                                                               uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::RxBroadcastCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeRxBroadcastCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::RxBroadcastCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxDataCount(Callback::Cancelable * onSuccessCallback,
                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -13328,6 +19449,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxDataCount(Callback::C
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeRxDataCount(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::RxDataCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeRxDataCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::RxDataCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxDataPollCount(Callback::Cancelable * onSuccessCallback,
                                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -13339,15 +19477,49 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxDataPollCount(Callbac
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeRxDataPollCount(Callback::Cancelable * onSuccessCallback,
+                                                                              Callback::Cancelable * onFailureCallback,
+                                                                              uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::RxDataPollCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeRxDataPollCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::RxDataPollCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxBeaconCount(Callback::Cancelable * onSuccessCallback,
                                                                        Callback::Cancelable * onFailureCallback)
 {
-    app::AttributePathParams attributePath;
+    app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = 0x0000002C;
+    return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
+                                             BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeRxBeaconCount(Callback::Cancelable * onSuccessCallback,
+                                                                            Callback::Cancelable * onFailureCallback,
+                                                                            uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
     attributePath.mEndpointId  = mEndpoint;
     attributePath.mClusterId   = mClusterId;
-    attributePath.mAttributeId = 0x0000002C;
-    return mDevice->SendReadAttributeRequest(attributePath, onSuccessCallback, onFailureCallback,
-                                             BasicAttributeFilter<Int32uAttributeCallback>);
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::RxBeaconCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeRxBeaconCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::RxBeaconCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxBeaconRequestCount(Callback::Cancelable * onSuccessCallback,
@@ -13361,6 +19533,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxBeaconRequestCount(Ca
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeRxBeaconRequestCount(Callback::Cancelable * onSuccessCallback,
+                                                                                   Callback::Cancelable * onFailureCallback,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::RxBeaconRequestCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeRxBeaconRequestCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::RxBeaconRequestCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxOtherCount(Callback::Cancelable * onSuccessCallback,
                                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -13372,6 +19561,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxOtherCount(Callback::
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeRxOtherCount(Callback::Cancelable * onSuccessCallback,
+                                                                           Callback::Cancelable * onFailureCallback,
+                                                                           uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::RxOtherCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeRxOtherCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::RxOtherCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxAddressFilteredCount(Callback::Cancelable * onSuccessCallback,
                                                                                 Callback::Cancelable * onFailureCallback)
 {
@@ -13383,6 +19589,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxAddressFilteredCount(
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeRxAddressFilteredCount(Callback::Cancelable * onSuccessCallback,
+                                                                                     Callback::Cancelable * onFailureCallback,
+                                                                                     uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::RxAddressFilteredCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeRxAddressFilteredCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::RxAddressFilteredCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxDestAddrFilteredCount(Callback::Cancelable * onSuccessCallback,
                                                                                  Callback::Cancelable * onFailureCallback)
 {
@@ -13394,6 +19617,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxDestAddrFilteredCount
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeRxDestAddrFilteredCount(Callback::Cancelable * onSuccessCallback,
+                                                                                      Callback::Cancelable * onFailureCallback,
+                                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::RxDestAddrFilteredCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeRxDestAddrFilteredCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::RxDestAddrFilteredCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxDuplicatedCount(Callback::Cancelable * onSuccessCallback,
                                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -13405,6 +19645,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxDuplicatedCount(Callb
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeRxDuplicatedCount(Callback::Cancelable * onSuccessCallback,
+                                                                                Callback::Cancelable * onFailureCallback,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::RxDuplicatedCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeRxDuplicatedCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::RxDuplicatedCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxErrNoFrameCount(Callback::Cancelable * onSuccessCallback,
                                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -13416,6 +19673,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxErrNoFrameCount(Callb
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeRxErrNoFrameCount(Callback::Cancelable * onSuccessCallback,
+                                                                                Callback::Cancelable * onFailureCallback,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::RxErrNoFrameCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeRxErrNoFrameCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::RxErrNoFrameCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxErrUnknownNeighborCount(Callback::Cancelable * onSuccessCallback,
                                                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -13427,6 +19701,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxErrUnknownNeighborCou
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeRxErrUnknownNeighborCount(Callback::Cancelable * onSuccessCallback,
+                                                                                        Callback::Cancelable * onFailureCallback,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::RxErrUnknownNeighborCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeRxErrUnknownNeighborCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::RxErrUnknownNeighborCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxErrInvalidSrcAddrCount(Callback::Cancelable * onSuccessCallback,
                                                                                   Callback::Cancelable * onFailureCallback)
 {
@@ -13438,6 +19729,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxErrInvalidSrcAddrCoun
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeRxErrInvalidSrcAddrCount(Callback::Cancelable * onSuccessCallback,
+                                                                                       Callback::Cancelable * onFailureCallback,
+                                                                                       uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::RxErrInvalidSrcAddrCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeRxErrInvalidSrcAddrCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::RxErrInvalidSrcAddrCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxErrSecCount(Callback::Cancelable * onSuccessCallback,
                                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -13449,6 +19757,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxErrSecCount(Callback:
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeRxErrSecCount(Callback::Cancelable * onSuccessCallback,
+                                                                            Callback::Cancelable * onFailureCallback,
+                                                                            uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::RxErrSecCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeRxErrSecCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::RxErrSecCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxErrFcsCount(Callback::Cancelable * onSuccessCallback,
                                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -13460,6 +19785,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxErrFcsCount(Callback:
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeRxErrFcsCount(Callback::Cancelable * onSuccessCallback,
+                                                                            Callback::Cancelable * onFailureCallback,
+                                                                            uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::RxErrFcsCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeRxErrFcsCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::RxErrFcsCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxErrOtherCount(Callback::Cancelable * onSuccessCallback,
                                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -13471,6 +19813,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeRxErrOtherCount(Callbac
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeRxErrOtherCount(Callback::Cancelable * onSuccessCallback,
+                                                                              Callback::Cancelable * onFailureCallback,
+                                                                              uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::RxErrOtherCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeRxErrOtherCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::RxErrOtherCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeActiveTimestamp(Callback::Cancelable * onSuccessCallback,
                                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -13482,6 +19841,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeActiveTimestamp(Callbac
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeActiveTimestamp(Callback::Cancelable * onSuccessCallback,
+                                                                              Callback::Cancelable * onFailureCallback,
+                                                                              uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::ActiveTimestamp::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeActiveTimestamp(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::ActiveTimestamp::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributePendingTimestamp(Callback::Cancelable * onSuccessCallback,
                                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -13493,6 +19869,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributePendingTimestamp(Callba
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributePendingTimestamp(Callback::Cancelable * onSuccessCallback,
+                                                                               Callback::Cancelable * onFailureCallback,
+                                                                               uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::PendingTimestamp::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributePendingTimestamp(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::PendingTimestamp::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeDelay(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -13504,6 +19897,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeDelay(Callback::Cancela
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeDelay(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::Delay::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeDelay(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::Delay::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeSecurityPolicy(Callback::Cancelable * onSuccessCallback,
                                                                         Callback::Cancelable * onFailureCallback)
 {
@@ -13526,6 +19936,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeChannelMask(Callback::C
                                              BasicAttributeFilter<OctetStringAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeChannelMask(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = ThreadNetworkDiagnostics::Attributes::ChannelMask::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeChannelMask(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(ThreadNetworkDiagnostics::Attributes::ChannelMask::Id, onReportCallback,
+                                     BasicAttributeFilter<OctetStringAttributeCallback>);
+}
+
 CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeOperationalDatasetComponents(Callback::Cancelable * onSuccessCallback,
                                                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -13559,6 +19986,23 @@ CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReadAttributeClusterRevision(Callbac
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                              Callback::Cancelable * onFailureCallback,
+                                                                              uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR ThreadNetworkDiagnosticsCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // WakeOnLan Cluster Commands
 // WakeOnLan Cluster Attributes
 CHIP_ERROR WakeOnLanCluster::ReadAttributeWakeOnLanMacAddress(Callback::Cancelable * onSuccessCallback,
@@ -13572,6 +20016,23 @@ CHIP_ERROR WakeOnLanCluster::ReadAttributeWakeOnLanMacAddress(Callback::Cancelab
                                              BasicAttributeFilter<CharStringAttributeCallback>);
 }
 
+CHIP_ERROR WakeOnLanCluster::SubscribeAttributeWakeOnLanMacAddress(Callback::Cancelable * onSuccessCallback,
+                                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                   uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WakeOnLan::Attributes::WakeOnLanMacAddress::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WakeOnLanCluster::ReportAttributeWakeOnLanMacAddress(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WakeOnLan::Attributes::WakeOnLanMacAddress::Id, onReportCallback,
+                                     BasicAttributeFilter<CharStringAttributeCallback>);
+}
+
 CHIP_ERROR WakeOnLanCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                           Callback::Cancelable * onFailureCallback)
 {
@@ -13583,6 +20044,23 @@ CHIP_ERROR WakeOnLanCluster::ReadAttributeClusterRevision(Callback::Cancelable *
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR WakeOnLanCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WakeOnLanCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // WiFiNetworkDiagnostics Cluster Commands
 CHIP_ERROR WiFiNetworkDiagnosticsCluster::ResetCounts(Callback::Cancelable * onSuccessCallback,
                                                       Callback::Cancelable * onFailureCallback)
@@ -13635,6 +20113,23 @@ CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributeBssid(Callback::Cancelabl
                                              BasicAttributeFilter<OctetStringAttributeCallback>);
 }
 
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::SubscribeAttributeBssid(Callback::Cancelable * onSuccessCallback,
+                                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                  uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WiFiNetworkDiagnostics::Attributes::Bssid::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReportAttributeBssid(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WiFiNetworkDiagnostics::Attributes::Bssid::Id, onReportCallback,
+                                     BasicAttributeFilter<OctetStringAttributeCallback>);
+}
+
 CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributeSecurityType(Callback::Cancelable * onSuccessCallback,
                                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -13646,6 +20141,23 @@ CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributeSecurityType(Callback::Ca
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::SubscribeAttributeSecurityType(Callback::Cancelable * onSuccessCallback,
+                                                                         Callback::Cancelable * onFailureCallback,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WiFiNetworkDiagnostics::Attributes::SecurityType::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReportAttributeSecurityType(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WiFiNetworkDiagnostics::Attributes::SecurityType::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributeWiFiVersion(Callback::Cancelable * onSuccessCallback,
                                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -13657,6 +20169,23 @@ CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributeWiFiVersion(Callback::Can
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::SubscribeAttributeWiFiVersion(Callback::Cancelable * onSuccessCallback,
+                                                                        Callback::Cancelable * onFailureCallback,
+                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WiFiNetworkDiagnostics::Attributes::WiFiVersion::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReportAttributeWiFiVersion(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WiFiNetworkDiagnostics::Attributes::WiFiVersion::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributeChannelNumber(Callback::Cancelable * onSuccessCallback,
                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -13668,6 +20197,23 @@ CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributeChannelNumber(Callback::C
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::SubscribeAttributeChannelNumber(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WiFiNetworkDiagnostics::Attributes::ChannelNumber::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReportAttributeChannelNumber(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WiFiNetworkDiagnostics::Attributes::ChannelNumber::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributeRssi(Callback::Cancelable * onSuccessCallback,
                                                             Callback::Cancelable * onFailureCallback)
 {
@@ -13679,6 +20225,23 @@ CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributeRssi(Callback::Cancelable
                                              BasicAttributeFilter<Int8sAttributeCallback>);
 }
 
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::SubscribeAttributeRssi(Callback::Cancelable * onSuccessCallback,
+                                                                 Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                 uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WiFiNetworkDiagnostics::Attributes::Rssi::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReportAttributeRssi(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WiFiNetworkDiagnostics::Attributes::Rssi::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8sAttributeCallback>);
+}
+
 CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributeBeaconLostCount(Callback::Cancelable * onSuccessCallback,
                                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -13690,6 +20253,23 @@ CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributeBeaconLostCount(Callback:
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::SubscribeAttributeBeaconLostCount(Callback::Cancelable * onSuccessCallback,
+                                                                            Callback::Cancelable * onFailureCallback,
+                                                                            uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WiFiNetworkDiagnostics::Attributes::BeaconLostCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReportAttributeBeaconLostCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WiFiNetworkDiagnostics::Attributes::BeaconLostCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributeBeaconRxCount(Callback::Cancelable * onSuccessCallback,
                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -13701,6 +20281,23 @@ CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributeBeaconRxCount(Callback::C
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::SubscribeAttributeBeaconRxCount(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WiFiNetworkDiagnostics::Attributes::BeaconRxCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReportAttributeBeaconRxCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WiFiNetworkDiagnostics::Attributes::BeaconRxCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributePacketMulticastRxCount(Callback::Cancelable * onSuccessCallback,
                                                                               Callback::Cancelable * onFailureCallback)
 {
@@ -13712,6 +20309,23 @@ CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributePacketMulticastRxCount(Ca
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::SubscribeAttributePacketMulticastRxCount(Callback::Cancelable * onSuccessCallback,
+                                                                                   Callback::Cancelable * onFailureCallback,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WiFiNetworkDiagnostics::Attributes::PacketMulticastRxCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReportAttributePacketMulticastRxCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WiFiNetworkDiagnostics::Attributes::PacketMulticastRxCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributePacketMulticastTxCount(Callback::Cancelable * onSuccessCallback,
                                                                               Callback::Cancelable * onFailureCallback)
 {
@@ -13723,6 +20337,23 @@ CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributePacketMulticastTxCount(Ca
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::SubscribeAttributePacketMulticastTxCount(Callback::Cancelable * onSuccessCallback,
+                                                                                   Callback::Cancelable * onFailureCallback,
+                                                                                   uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WiFiNetworkDiagnostics::Attributes::PacketMulticastTxCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReportAttributePacketMulticastTxCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WiFiNetworkDiagnostics::Attributes::PacketMulticastTxCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributePacketUnicastRxCount(Callback::Cancelable * onSuccessCallback,
                                                                             Callback::Cancelable * onFailureCallback)
 {
@@ -13734,6 +20365,23 @@ CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributePacketUnicastRxCount(Call
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::SubscribeAttributePacketUnicastRxCount(Callback::Cancelable * onSuccessCallback,
+                                                                                 Callback::Cancelable * onFailureCallback,
+                                                                                 uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WiFiNetworkDiagnostics::Attributes::PacketUnicastRxCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReportAttributePacketUnicastRxCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WiFiNetworkDiagnostics::Attributes::PacketUnicastRxCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributePacketUnicastTxCount(Callback::Cancelable * onSuccessCallback,
                                                                             Callback::Cancelable * onFailureCallback)
 {
@@ -13745,6 +20393,23 @@ CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributePacketUnicastTxCount(Call
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::SubscribeAttributePacketUnicastTxCount(Callback::Cancelable * onSuccessCallback,
+                                                                                 Callback::Cancelable * onFailureCallback,
+                                                                                 uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WiFiNetworkDiagnostics::Attributes::PacketUnicastTxCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReportAttributePacketUnicastTxCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WiFiNetworkDiagnostics::Attributes::PacketUnicastTxCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributeCurrentMaxRate(Callback::Cancelable * onSuccessCallback,
                                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -13756,6 +20421,23 @@ CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributeCurrentMaxRate(Callback::
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::SubscribeAttributeCurrentMaxRate(Callback::Cancelable * onSuccessCallback,
+                                                                           Callback::Cancelable * onFailureCallback,
+                                                                           uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WiFiNetworkDiagnostics::Attributes::CurrentMaxRate::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReportAttributeCurrentMaxRate(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WiFiNetworkDiagnostics::Attributes::CurrentMaxRate::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributeOverrunCount(Callback::Cancelable * onSuccessCallback,
                                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -13767,6 +20449,23 @@ CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributeOverrunCount(Callback::Ca
                                              BasicAttributeFilter<Int64uAttributeCallback>);
 }
 
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::SubscribeAttributeOverrunCount(Callback::Cancelable * onSuccessCallback,
+                                                                         Callback::Cancelable * onFailureCallback,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WiFiNetworkDiagnostics::Attributes::OverrunCount::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReportAttributeOverrunCount(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WiFiNetworkDiagnostics::Attributes::OverrunCount::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -13778,6 +20477,23 @@ CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReadAttributeClusterRevision(Callback:
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                            Callback::Cancelable * onFailureCallback,
+                                                                            uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WiFiNetworkDiagnosticsCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // WindowCovering Cluster Commands
 CHIP_ERROR WindowCoveringCluster::DownOrClose(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
 {
@@ -14075,6 +20791,23 @@ CHIP_ERROR WindowCoveringCluster::ReadAttributeType(Callback::Cancelable * onSuc
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR WindowCoveringCluster::SubscribeAttributeType(Callback::Cancelable * onSuccessCallback,
+                                                         Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                         uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WindowCovering::Attributes::Type::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WindowCoveringCluster::ReportAttributeType(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WindowCovering::Attributes::Type::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR WindowCoveringCluster::ReadAttributeCurrentPositionLift(Callback::Cancelable * onSuccessCallback,
                                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -14086,6 +20819,23 @@ CHIP_ERROR WindowCoveringCluster::ReadAttributeCurrentPositionLift(Callback::Can
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR WindowCoveringCluster::SubscribeAttributeCurrentPositionLift(Callback::Cancelable * onSuccessCallback,
+                                                                        Callback::Cancelable * onFailureCallback,
+                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WindowCovering::Attributes::CurrentPositionLift::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WindowCoveringCluster::ReportAttributeCurrentPositionLift(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WindowCovering::Attributes::CurrentPositionLift::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR WindowCoveringCluster::ReadAttributeCurrentPositionTilt(Callback::Cancelable * onSuccessCallback,
                                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -14097,6 +20847,23 @@ CHIP_ERROR WindowCoveringCluster::ReadAttributeCurrentPositionTilt(Callback::Can
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR WindowCoveringCluster::SubscribeAttributeCurrentPositionTilt(Callback::Cancelable * onSuccessCallback,
+                                                                        Callback::Cancelable * onFailureCallback,
+                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WindowCovering::Attributes::CurrentPositionTilt::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WindowCoveringCluster::ReportAttributeCurrentPositionTilt(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WindowCovering::Attributes::CurrentPositionTilt::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR WindowCoveringCluster::ReadAttributeConfigStatus(Callback::Cancelable * onSuccessCallback,
                                                             Callback::Cancelable * onFailureCallback)
 {
@@ -14108,6 +20875,23 @@ CHIP_ERROR WindowCoveringCluster::ReadAttributeConfigStatus(Callback::Cancelable
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR WindowCoveringCluster::SubscribeAttributeConfigStatus(Callback::Cancelable * onSuccessCallback,
+                                                                 Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                 uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WindowCovering::Attributes::ConfigStatus::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WindowCoveringCluster::ReportAttributeConfigStatus(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WindowCovering::Attributes::ConfigStatus::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR WindowCoveringCluster::ReadAttributeCurrentPositionLiftPercentage(Callback::Cancelable * onSuccessCallback,
                                                                              Callback::Cancelable * onFailureCallback)
 {
@@ -14259,6 +21043,23 @@ CHIP_ERROR WindowCoveringCluster::ReadAttributeEndProductType(Callback::Cancelab
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR WindowCoveringCluster::SubscribeAttributeEndProductType(Callback::Cancelable * onSuccessCallback,
+                                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                   uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WindowCovering::Attributes::EndProductType::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WindowCoveringCluster::ReportAttributeEndProductType(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WindowCovering::Attributes::EndProductType::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR WindowCoveringCluster::ReadAttributeCurrentPositionLiftPercent100ths(Callback::Cancelable * onSuccessCallback,
                                                                                 Callback::Cancelable * onFailureCallback)
 {
@@ -14326,6 +21127,23 @@ CHIP_ERROR WindowCoveringCluster::ReadAttributeInstalledOpenLimitLift(Callback::
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR WindowCoveringCluster::SubscribeAttributeInstalledOpenLimitLift(Callback::Cancelable * onSuccessCallback,
+                                                                           Callback::Cancelable * onFailureCallback,
+                                                                           uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WindowCovering::Attributes::InstalledOpenLimitLift::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WindowCoveringCluster::ReportAttributeInstalledOpenLimitLift(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WindowCovering::Attributes::InstalledOpenLimitLift::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR WindowCoveringCluster::ReadAttributeInstalledClosedLimitLift(Callback::Cancelable * onSuccessCallback,
                                                                         Callback::Cancelable * onFailureCallback)
 {
@@ -14337,6 +21155,23 @@ CHIP_ERROR WindowCoveringCluster::ReadAttributeInstalledClosedLimitLift(Callback
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR WindowCoveringCluster::SubscribeAttributeInstalledClosedLimitLift(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WindowCovering::Attributes::InstalledClosedLimitLift::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WindowCoveringCluster::ReportAttributeInstalledClosedLimitLift(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WindowCovering::Attributes::InstalledClosedLimitLift::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR WindowCoveringCluster::ReadAttributeInstalledOpenLimitTilt(Callback::Cancelable * onSuccessCallback,
                                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -14348,6 +21183,23 @@ CHIP_ERROR WindowCoveringCluster::ReadAttributeInstalledOpenLimitTilt(Callback::
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR WindowCoveringCluster::SubscribeAttributeInstalledOpenLimitTilt(Callback::Cancelable * onSuccessCallback,
+                                                                           Callback::Cancelable * onFailureCallback,
+                                                                           uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WindowCovering::Attributes::InstalledOpenLimitTilt::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WindowCoveringCluster::ReportAttributeInstalledOpenLimitTilt(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WindowCovering::Attributes::InstalledOpenLimitTilt::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR WindowCoveringCluster::ReadAttributeInstalledClosedLimitTilt(Callback::Cancelable * onSuccessCallback,
                                                                         Callback::Cancelable * onFailureCallback)
 {
@@ -14359,6 +21211,23 @@ CHIP_ERROR WindowCoveringCluster::ReadAttributeInstalledClosedLimitTilt(Callback
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR WindowCoveringCluster::SubscribeAttributeInstalledClosedLimitTilt(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WindowCovering::Attributes::InstalledClosedLimitTilt::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WindowCoveringCluster::ReportAttributeInstalledClosedLimitTilt(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WindowCovering::Attributes::InstalledClosedLimitTilt::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR WindowCoveringCluster::ReadAttributeMode(Callback::Cancelable * onSuccessCallback,
                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -14381,6 +21250,23 @@ CHIP_ERROR WindowCoveringCluster::WriteAttributeMode(Callback::Cancelable * onSu
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR WindowCoveringCluster::SubscribeAttributeMode(Callback::Cancelable * onSuccessCallback,
+                                                         Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                         uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = WindowCovering::Attributes::Mode::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WindowCoveringCluster::ReportAttributeMode(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(WindowCovering::Attributes::Mode::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR WindowCoveringCluster::ReadAttributeSafetyStatus(Callback::Cancelable * onSuccessCallback,
                                                             Callback::Cancelable * onFailureCallback)
 {
@@ -14420,6 +21306,23 @@ CHIP_ERROR WindowCoveringCluster::ReadAttributeFeatureMap(Callback::Cancelable *
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR WindowCoveringCluster::SubscribeAttributeFeatureMap(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::FeatureMap::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WindowCoveringCluster::ReportAttributeFeatureMap(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::FeatureMap::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR WindowCoveringCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -14431,5 +21334,22 @@ CHIP_ERROR WindowCoveringCluster::ReadAttributeClusterRevision(Callback::Cancela
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR WindowCoveringCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                    uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR WindowCoveringCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 } // namespace Controller
 } // namespace chip
diff --git a/zzz_generated/controller-clusters/zap-generated/CHIPClusters.h b/zzz_generated/controller-clusters/zap-generated/CHIPClusters.h
index dd73205c660940..cf6fce0913f193 100644
--- a/zzz_generated/controller-clusters/zap-generated/CHIPClusters.h
+++ b/zzz_generated/controller-clusters/zap-generated/CHIPClusters.h
@@ -44,6 +44,9 @@ class DLL_EXPORT AccountLoginCluster : public ClusterBase
 
     // Cluster Attributes
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -64,6 +67,9 @@ class DLL_EXPORT AdministratorCommissioningCluster : public ClusterBase
 
     // Cluster Attributes
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -86,6 +92,31 @@ class DLL_EXPORT ApplicationBasicCluster : public ClusterBase
     CHIP_ERROR ReadAttributeCatalogVendorId(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeApplicationStatus(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeVendorName(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeVendorName(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeVendorId(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                          uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeVendorId(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeApplicationName(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeApplicationName(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeProductId(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeProductId(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeApplicationId(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeApplicationId(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeCatalogVendorId(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCatalogVendorId(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeApplicationStatus(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeApplicationStatus(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -106,6 +137,15 @@ class DLL_EXPORT ApplicationLauncherCluster : public ClusterBase
     CHIP_ERROR ReadAttributeCatalogVendorId(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeApplicationId(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeCatalogVendorId(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCatalogVendorId(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeApplicationId(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeApplicationId(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -125,6 +165,13 @@ class DLL_EXPORT AudioOutputCluster : public ClusterBase
     CHIP_ERROR ReadAttributeAudioOutputList(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeCurrentAudioOutput(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeCurrentAudioOutput(Callback::Cancelable * onSuccessCallback,
+                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                    uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCurrentAudioOutput(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -146,6 +193,24 @@ class DLL_EXPORT BarrierControlCluster : public ClusterBase
     CHIP_ERROR ReadAttributeBarrierCapabilities(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeBarrierPosition(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeBarrierMovingState(Callback::Cancelable * onSuccessCallback,
+                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                    uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBarrierMovingState(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeBarrierSafetyStatus(Callback::Cancelable * onSuccessCallback,
+                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                     uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBarrierSafetyStatus(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeBarrierCapabilities(Callback::Cancelable * onSuccessCallback,
+                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                     uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBarrierCapabilities(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeBarrierPosition(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBarrierPosition(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -188,6 +253,68 @@ class DLL_EXPORT BasicCluster : public ClusterBase
                                       chip::CharSpan value);
     CHIP_ERROR WriteAttributeLocalConfigDisabled(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                  bool value);
+    CHIP_ERROR SubscribeAttributeInteractionModelVersion(Callback::Cancelable * onSuccessCallback,
+                                                         Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                         uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeInteractionModelVersion(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeVendorName(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeVendorName(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeVendorID(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                          uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeVendorID(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeProductName(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeProductName(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeProductID(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeProductID(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeUserLabel(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeUserLabel(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeLocation(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                          uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeLocation(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeHardwareVersion(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeHardwareVersion(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeHardwareVersionString(Callback::Cancelable * onSuccessCallback,
+                                                       Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                       uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeHardwareVersionString(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeSoftwareVersion(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeSoftwareVersion(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeSoftwareVersionString(Callback::Cancelable * onSuccessCallback,
+                                                       Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                       uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeSoftwareVersionString(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeManufacturingDate(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeManufacturingDate(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePartNumber(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePartNumber(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeProductURL(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeProductURL(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeProductLabel(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeProductLabel(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeSerialNumber(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeSerialNumber(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeLocalConfigDisabled(Callback::Cancelable * onSuccessCallback,
+                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                     uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeLocalConfigDisabled(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeReachable(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeReachable(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -207,12 +334,18 @@ class DLL_EXPORT BinaryInputBasicCluster : public ClusterBase
                                           bool value);
     CHIP_ERROR WriteAttributePresentValue(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                           bool value);
+    CHIP_ERROR SubscribeAttributeOutOfService(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOutOfService(Callback::Cancelable * onReportCallback);
     CHIP_ERROR SubscribeAttributePresentValue(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                               uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributePresentValue(Callback::Cancelable * onReportCallback);
     CHIP_ERROR SubscribeAttributeStatusFlags(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                              uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeStatusFlags(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT BindingCluster : public ClusterBase
@@ -229,6 +362,9 @@ class DLL_EXPORT BindingCluster : public ClusterBase
 
     // Cluster Attributes
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -245,6 +381,9 @@ class DLL_EXPORT BooleanStateCluster : public ClusterBase
     CHIP_ERROR SubscribeAttributeStateValue(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                             uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeStateValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT BridgedActionsCluster : public ClusterBase
@@ -284,6 +423,12 @@ class DLL_EXPORT BridgedActionsCluster : public ClusterBase
     CHIP_ERROR ReadAttributeEndpointList(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeSetupUrl(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeSetupUrl(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                          uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeSetupUrl(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -296,6 +441,9 @@ class DLL_EXPORT BridgedDeviceBasicInformationCluster : public ClusterBase
 
     // Cluster Attributes
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT ColorControlCluster : public ClusterBase
@@ -447,16 +595,183 @@ class DLL_EXPORT ColorControlCluster : public ClusterBase
                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
                                                    uint16_t maxInterval);
     CHIP_ERROR ReportAttributeCurrentSaturation(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRemainingTime(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRemainingTime(Callback::Cancelable * onReportCallback);
     CHIP_ERROR SubscribeAttributeCurrentX(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                           uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeCurrentX(Callback::Cancelable * onReportCallback);
     CHIP_ERROR SubscribeAttributeCurrentY(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                           uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeCurrentY(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeDriftCompensation(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeDriftCompensation(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeCompensationText(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCompensationText(Callback::Cancelable * onReportCallback);
     CHIP_ERROR SubscribeAttributeColorTemperature(Callback::Cancelable * onSuccessCallback,
                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
                                                   uint16_t maxInterval);
     CHIP_ERROR ReportAttributeColorTemperature(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeColorMode(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeColorMode(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeColorControlOptions(Callback::Cancelable * onSuccessCallback,
+                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                     uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeColorControlOptions(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNumberOfPrimaries(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNumberOfPrimaries(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePrimary1X(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePrimary1X(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePrimary1Y(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePrimary1Y(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePrimary1Intensity(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePrimary1Intensity(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePrimary2X(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePrimary2X(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePrimary2Y(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePrimary2Y(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePrimary2Intensity(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePrimary2Intensity(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePrimary3X(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePrimary3X(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePrimary3Y(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePrimary3Y(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePrimary3Intensity(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePrimary3Intensity(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePrimary4X(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePrimary4X(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePrimary4Y(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePrimary4Y(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePrimary4Intensity(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePrimary4Intensity(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePrimary5X(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePrimary5X(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePrimary5Y(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePrimary5Y(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePrimary5Intensity(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePrimary5Intensity(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePrimary6X(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePrimary6X(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePrimary6Y(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePrimary6Y(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePrimary6Intensity(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePrimary6Intensity(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeWhitePointX(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeWhitePointX(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeWhitePointY(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeWhitePointY(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeColorPointRX(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeColorPointRX(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeColorPointRY(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeColorPointRY(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeColorPointRIntensity(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeColorPointRIntensity(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeColorPointGX(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeColorPointGX(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeColorPointGY(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeColorPointGY(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeColorPointGIntensity(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeColorPointGIntensity(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeColorPointBX(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeColorPointBX(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeColorPointBY(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeColorPointBY(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeColorPointBIntensity(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeColorPointBIntensity(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeEnhancedCurrentHue(Callback::Cancelable * onSuccessCallback,
+                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                    uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeEnhancedCurrentHue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeEnhancedColorMode(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeEnhancedColorMode(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeColorLoopActive(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeColorLoopActive(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeColorLoopDirection(Callback::Cancelable * onSuccessCallback,
+                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                    uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeColorLoopDirection(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeColorLoopTime(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeColorLoopTime(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeColorLoopStartEnhancedHue(Callback::Cancelable * onSuccessCallback,
+                                                           Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                           uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeColorLoopStartEnhancedHue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeColorLoopStoredEnhancedHue(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeColorLoopStoredEnhancedHue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeColorCapabilities(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeColorCapabilities(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeColorTempPhysicalMin(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeColorTempPhysicalMin(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeColorTempPhysicalMax(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeColorTempPhysicalMax(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeCoupleColorTempToLevelMinMireds(Callback::Cancelable * onSuccessCallback,
+                                                                 Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                 uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCoupleColorTempToLevelMinMireds(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeStartUpColorTemperatureMireds(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeStartUpColorTemperatureMireds(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -478,6 +793,9 @@ class DLL_EXPORT ContentLauncherCluster : public ClusterBase
     CHIP_ERROR ReadAttributeSupportedStreamingTypes(Callback::Cancelable * onSuccessCallback,
                                                     Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -494,6 +812,9 @@ class DLL_EXPORT DescriptorCluster : public ClusterBase
     CHIP_ERROR ReadAttributeClientList(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributePartsList(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT DiagnosticLogsCluster : public ClusterBase
@@ -565,6 +886,15 @@ class DLL_EXPORT DoorLockCluster : public ClusterBase
     CHIP_ERROR SubscribeAttributeLockState(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                            uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeLockState(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeLockType(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                          uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeLockType(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeActuatorEnabled(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeActuatorEnabled(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -588,6 +918,43 @@ class DLL_EXPORT ElectricalMeasurementCluster : public ClusterBase
     CHIP_ERROR ReadAttributeActivePowerMin(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeActivePowerMax(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeMeasurementType(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMeasurementType(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTotalActivePower(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTotalActivePower(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRmsVoltage(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRmsVoltage(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRmsVoltageMin(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRmsVoltageMin(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRmsVoltageMax(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRmsVoltageMax(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRmsCurrent(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRmsCurrent(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRmsCurrentMin(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRmsCurrentMin(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRmsCurrentMax(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRmsCurrentMax(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeActivePower(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeActivePower(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeActivePowerMin(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeActivePowerMin(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeActivePowerMax(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeActivePowerMax(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT EthernetNetworkDiagnosticsCluster : public ClusterBase
@@ -610,6 +977,36 @@ class DLL_EXPORT EthernetNetworkDiagnosticsCluster : public ClusterBase
     CHIP_ERROR ReadAttributeCarrierDetect(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeTimeSinceReset(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributePHYRate(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                         uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePHYRate(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeFullDuplex(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeFullDuplex(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePacketRxCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePacketRxCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePacketTxCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePacketTxCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTxErrCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTxErrCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeCollisionCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCollisionCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOverrunCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOverrunCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeCarrierDetect(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCarrierDetect(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTimeSinceReset(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTimeSinceReset(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -623,6 +1020,9 @@ class DLL_EXPORT FixedLabelCluster : public ClusterBase
     // Cluster Attributes
     CHIP_ERROR ReadAttributeLabelList(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT FlowMeasurementCluster : public ClusterBase
@@ -637,6 +1037,23 @@ class DLL_EXPORT FlowMeasurementCluster : public ClusterBase
     CHIP_ERROR ReadAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeTolerance(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTolerance(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTolerance(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT GeneralCommissioningCluster : public ClusterBase
@@ -659,6 +1076,12 @@ class DLL_EXPORT GeneralCommissioningCluster : public ClusterBase
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR WriteAttributeBreadcrumb(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                         uint64_t value);
+    CHIP_ERROR SubscribeAttributeBreadcrumb(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBreadcrumb(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -681,6 +1104,22 @@ class DLL_EXPORT GeneralDiagnosticsCluster : public ClusterBase
     CHIP_ERROR ReadAttributeActiveRadioFaults(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeActiveNetworkFaults(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeRebootCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRebootCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeUpTime(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                        uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeUpTime(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTotalOperationalHours(Callback::Cancelable * onSuccessCallback,
+                                                       Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                       uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTotalOperationalHours(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeBootReasons(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBootReasons(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT GroupKeyManagementCluster : public ClusterBase
@@ -693,6 +1132,9 @@ class DLL_EXPORT GroupKeyManagementCluster : public ClusterBase
     CHIP_ERROR ReadAttributeGroups(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeGroupKeys(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT GroupsCluster : public ClusterBase
@@ -715,6 +1157,12 @@ class DLL_EXPORT GroupsCluster : public ClusterBase
     // Cluster Attributes
     CHIP_ERROR ReadAttributeNameSupport(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeNameSupport(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNameSupport(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -737,6 +1185,15 @@ class DLL_EXPORT IdentifyCluster : public ClusterBase
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR WriteAttributeIdentifyTime(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                           uint16_t value);
+    CHIP_ERROR SubscribeAttributeIdentifyTime(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeIdentifyTime(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeIdentifyType(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeIdentifyType(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -757,6 +1214,23 @@ class DLL_EXPORT IlluminanceMeasurementCluster : public ClusterBase
     CHIP_ERROR SubscribeAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTolerance(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTolerance(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeLightSensorType(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeLightSensorType(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT KeypadInputCluster : public ClusterBase
@@ -770,6 +1244,9 @@ class DLL_EXPORT KeypadInputCluster : public ClusterBase
 
     // Cluster Attributes
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -830,6 +1307,53 @@ class DLL_EXPORT LevelControlCluster : public ClusterBase
     CHIP_ERROR SubscribeAttributeCurrentLevel(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                               uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeCurrentLevel(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRemainingTime(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRemainingTime(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinLevel(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                          uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinLevel(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxLevel(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                          uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxLevel(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeCurrentFrequency(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCurrentFrequency(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinFrequency(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinFrequency(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxFrequency(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxFrequency(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOptions(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                         uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOptions(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOnOffTransitionTime(Callback::Cancelable * onSuccessCallback,
+                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                     uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOnOffTransitionTime(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOnLevel(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                         uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOnLevel(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOnTransitionTime(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOnTransitionTime(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOffTransitionTime(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOffTransitionTime(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeDefaultMoveRate(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeDefaultMoveRate(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeStartUpCurrentLevel(Callback::Cancelable * onSuccessCallback,
+                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                     uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeStartUpCurrentLevel(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -845,6 +1369,9 @@ class DLL_EXPORT LowPowerCluster : public ClusterBase
 
     // Cluster Attributes
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -866,6 +1393,13 @@ class DLL_EXPORT MediaInputCluster : public ClusterBase
     CHIP_ERROR ReadAttributeMediaInputList(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeCurrentMediaInput(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeCurrentMediaInput(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCurrentMediaInput(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -901,6 +1435,34 @@ class DLL_EXPORT MediaPlaybackCluster : public ClusterBase
     CHIP_ERROR ReadAttributeSeekRangeEnd(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeSeekRangeStart(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributePlaybackState(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePlaybackState(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeStartTime(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeStartTime(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeDuration(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                          uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeDuration(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePositionUpdatedAt(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePositionUpdatedAt(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePosition(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                          uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePosition(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePlaybackSpeed(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePlaybackSpeed(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeSeekRangeEnd(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeSeekRangeEnd(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeSeekRangeStart(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeSeekRangeStart(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -926,6 +1488,18 @@ class DLL_EXPORT ModeSelectCluster : public ClusterBase
     CHIP_ERROR SubscribeAttributeCurrentMode(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                              uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeCurrentMode(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOnMode(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                        uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOnMode(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeStartUpMode(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeStartUpMode(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeDescription(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeDescription(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -957,6 +1531,12 @@ class DLL_EXPORT NetworkCommissioningCluster : public ClusterBase
     // Cluster Attributes
     CHIP_ERROR ReadAttributeFeatureMap(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeFeatureMap(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeFeatureMap(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -979,6 +1559,9 @@ class DLL_EXPORT OtaSoftwareUpdateProviderCluster : public ClusterBase
 
     // Cluster Attributes
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -1000,6 +1583,16 @@ class DLL_EXPORT OtaSoftwareUpdateRequestorCluster : public ClusterBase
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR WriteAttributeDefaultOtaProvider(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                 chip::ByteSpan value);
+    CHIP_ERROR SubscribeAttributeDefaultOtaProvider(Callback::Cancelable * onSuccessCallback,
+                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                    uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeDefaultOtaProvider(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeUpdatePossible(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeUpdatePossible(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -1019,6 +1612,17 @@ class DLL_EXPORT OccupancySensingCluster : public ClusterBase
     CHIP_ERROR SubscribeAttributeOccupancy(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                            uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeOccupancy(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOccupancySensorType(Callback::Cancelable * onSuccessCallback,
+                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                     uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOccupancySensorType(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOccupancySensorTypeBitmap(Callback::Cancelable * onSuccessCallback,
+                                                           Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                           uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOccupancySensorTypeBitmap(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT OnOffCluster : public ClusterBase
@@ -1054,6 +1658,25 @@ class DLL_EXPORT OnOffCluster : public ClusterBase
     CHIP_ERROR SubscribeAttributeOnOff(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                        uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeOnOff(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeGlobalSceneControl(Callback::Cancelable * onSuccessCallback,
+                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                    uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeGlobalSceneControl(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOnTime(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                        uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOnTime(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOffWaitTime(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOffWaitTime(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeStartUpOnOff(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeStartUpOnOff(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeFeatureMap(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeFeatureMap(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -1070,6 +1693,15 @@ class DLL_EXPORT OnOffSwitchConfigurationCluster : public ClusterBase
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR WriteAttributeSwitchActions(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                            uint8_t value);
+    CHIP_ERROR SubscribeAttributeSwitchType(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeSwitchType(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeSwitchActions(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeSwitchActions(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT OperationalCredentialsCluster : public ClusterBase
@@ -1106,6 +1738,21 @@ class DLL_EXPORT OperationalCredentialsCluster : public ClusterBase
                                                     Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeCurrentFabricIndex(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeSupportedFabrics(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeSupportedFabrics(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeCommissionedFabrics(Callback::Cancelable * onSuccessCallback,
+                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                     uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCommissionedFabrics(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeCurrentFabricIndex(Callback::Cancelable * onSuccessCallback,
+                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                    uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCurrentFabricIndex(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -1130,6 +1777,40 @@ class DLL_EXPORT PowerSourceCluster : public ClusterBase
     CHIP_ERROR ReadAttributeBatteryChargeState(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeFeatureMap(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeStatus(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                        uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeStatus(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOrder(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                       uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOrder(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeDescription(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeDescription(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeBatteryVoltage(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBatteryVoltage(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeBatteryPercentRemaining(Callback::Cancelable * onSuccessCallback,
+                                                         Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                         uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBatteryPercentRemaining(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeBatteryTimeRemaining(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBatteryTimeRemaining(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeBatteryChargeLevel(Callback::Cancelable * onSuccessCallback,
+                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                    uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBatteryChargeLevel(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeBatteryChargeState(Callback::Cancelable * onSuccessCallback,
+                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                    uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBatteryChargeState(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeFeatureMap(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeFeatureMap(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT PressureMeasurementCluster : public ClusterBase
@@ -1146,6 +1827,17 @@ class DLL_EXPORT PressureMeasurementCluster : public ClusterBase
     CHIP_ERROR SubscribeAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT PumpConfigurationAndControlCluster : public ClusterBase
@@ -1186,12 +1878,83 @@ class DLL_EXPORT PumpConfigurationAndControlCluster : public ClusterBase
                                            uint8_t value);
     CHIP_ERROR WriteAttributeControlMode(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                          uint8_t value);
+    CHIP_ERROR SubscribeAttributeMaxPressure(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxPressure(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxSpeed(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                          uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxSpeed(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxFlow(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                         uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxFlow(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinConstPressure(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinConstPressure(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxConstPressure(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxConstPressure(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinCompPressure(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinCompPressure(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxCompPressure(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxCompPressure(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinConstSpeed(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinConstSpeed(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxConstSpeed(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxConstSpeed(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinConstFlow(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinConstFlow(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxConstFlow(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxConstFlow(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinConstTemp(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinConstTemp(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxConstTemp(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxConstTemp(Callback::Cancelable * onReportCallback);
     CHIP_ERROR SubscribeAttributePumpStatus(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                             uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributePumpStatus(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeEffectiveOperationMode(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeEffectiveOperationMode(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeEffectiveControlMode(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeEffectiveControlMode(Callback::Cancelable * onReportCallback);
     CHIP_ERROR SubscribeAttributeCapacity(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                           uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeCapacity(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeSpeed(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                       uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeSpeed(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeLifetimeEnergyConsumed(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeLifetimeEnergyConsumed(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOperationMode(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOperationMode(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeControlMode(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeControlMode(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeAlarmMask(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeAlarmMask(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeFeatureMap(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeFeatureMap(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT RelativeHumidityMeasurementCluster : public ClusterBase
@@ -1209,9 +1972,20 @@ class DLL_EXPORT RelativeHumidityMeasurementCluster : public ClusterBase
     CHIP_ERROR SubscribeAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback);
     CHIP_ERROR SubscribeAttributeTolerance(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                            uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeTolerance(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT ScenesCluster : public ClusterBase
@@ -1244,6 +2018,24 @@ class DLL_EXPORT ScenesCluster : public ClusterBase
     CHIP_ERROR ReadAttributeSceneValid(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeNameSupport(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeSceneCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeSceneCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeCurrentScene(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCurrentScene(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeCurrentGroup(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCurrentGroup(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeSceneValid(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeSceneValid(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNameSupport(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNameSupport(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -1264,6 +2056,19 @@ class DLL_EXPORT SoftwareDiagnosticsCluster : public ClusterBase
     CHIP_ERROR ReadAttributeCurrentHeapHighWatermark(Callback::Cancelable * onSuccessCallback,
                                                      Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeCurrentHeapFree(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCurrentHeapFree(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeCurrentHeapUsed(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCurrentHeapUsed(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeCurrentHeapHighWatermark(Callback::Cancelable * onSuccessCallback,
+                                                          Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                          uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCurrentHeapHighWatermark(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -1280,9 +2085,22 @@ class DLL_EXPORT SwitchCluster : public ClusterBase
     CHIP_ERROR ReadAttributeMultiPressMax(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeFeatureMap(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeNumberOfPositions(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNumberOfPositions(Callback::Cancelable * onReportCallback);
     CHIP_ERROR SubscribeAttributeCurrentPosition(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                  uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeCurrentPosition(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMultiPressMax(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMultiPressMax(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeFeatureMap(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeFeatureMap(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT TvChannelCluster : public ClusterBase
@@ -1303,6 +2121,16 @@ class DLL_EXPORT TvChannelCluster : public ClusterBase
     CHIP_ERROR ReadAttributeTvChannelLineup(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeCurrentTvChannel(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeTvChannelLineup(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTvChannelLineup(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeCurrentTvChannel(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCurrentTvChannel(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -1320,6 +2148,9 @@ class DLL_EXPORT TargetNavigatorCluster : public ClusterBase
     // Cluster Attributes
     CHIP_ERROR ReadAttributeTargetNavigatorList(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -1339,9 +2170,20 @@ class DLL_EXPORT TemperatureMeasurementCluster : public ClusterBase
     CHIP_ERROR SubscribeAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback);
     CHIP_ERROR SubscribeAttributeTolerance(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                            uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeTolerance(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT TestClusterCluster : public ClusterBase
@@ -1498,6 +2340,134 @@ class DLL_EXPORT TestClusterCluster : public ClusterBase
                                                  chip::ByteSpan value);
     CHIP_ERROR WriteAttributeNullableCharString(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                 chip::CharSpan value);
+    CHIP_ERROR SubscribeAttributeBoolean(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                         uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBoolean(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeBitmap8(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                         uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBitmap8(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeBitmap16(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                          uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBitmap16(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeBitmap32(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                          uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBitmap32(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeBitmap64(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                          uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBitmap64(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeInt8u(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                       uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeInt8u(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeInt16u(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                        uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeInt16u(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeInt32u(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                        uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeInt32u(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeInt64u(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                        uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeInt64u(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeInt8s(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                       uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeInt8s(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeInt16s(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                        uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeInt16s(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeInt32s(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                        uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeInt32s(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeInt64s(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                        uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeInt64s(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeEnum8(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                       uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeEnum8(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeEnum16(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                        uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeEnum16(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOctetString(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOctetString(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeLongOctetString(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeLongOctetString(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeCharString(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCharString(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeLongCharString(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeLongCharString(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeEpochUs(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                         uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeEpochUs(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeEpochS(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                        uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeEpochS(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeVendorId(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                          uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeVendorId(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeUnsupported(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeUnsupported(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNullableBoolean(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNullableBoolean(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNullableBitmap8(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNullableBitmap8(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNullableBitmap16(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNullableBitmap16(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNullableBitmap32(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNullableBitmap32(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNullableBitmap64(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNullableBitmap64(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNullableInt8u(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNullableInt8u(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNullableInt16u(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNullableInt16u(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNullableInt32u(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNullableInt32u(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNullableInt64u(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNullableInt64u(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNullableInt8s(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNullableInt8s(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNullableInt16s(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNullableInt16s(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNullableInt32s(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNullableInt32s(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNullableInt64s(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNullableInt64s(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNullableEnum8(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNullableEnum8(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNullableEnum16(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNullableEnum16(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNullableOctetString(Callback::Cancelable * onSuccessCallback,
+                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                     uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNullableOctetString(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNullableCharString(Callback::Cancelable * onSuccessCallback,
+                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                    uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNullableCharString(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -1574,6 +2544,74 @@ class DLL_EXPORT ThermostatCluster : public ClusterBase
                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
                                                   uint16_t maxInterval);
     CHIP_ERROR ReportAttributeLocalTemperature(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeAbsMinHeatSetpointLimit(Callback::Cancelable * onSuccessCallback,
+                                                         Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                         uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeAbsMinHeatSetpointLimit(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeAbsMaxHeatSetpointLimit(Callback::Cancelable * onSuccessCallback,
+                                                         Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                         uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeAbsMaxHeatSetpointLimit(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeAbsMinCoolSetpointLimit(Callback::Cancelable * onSuccessCallback,
+                                                         Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                         uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeAbsMinCoolSetpointLimit(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeAbsMaxCoolSetpointLimit(Callback::Cancelable * onSuccessCallback,
+                                                         Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                         uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeAbsMaxCoolSetpointLimit(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOccupiedCoolingSetpoint(Callback::Cancelable * onSuccessCallback,
+                                                         Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                         uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOccupiedCoolingSetpoint(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOccupiedHeatingSetpoint(Callback::Cancelable * onSuccessCallback,
+                                                         Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                         uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOccupiedHeatingSetpoint(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinHeatSetpointLimit(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinHeatSetpointLimit(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxHeatSetpointLimit(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxHeatSetpointLimit(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinCoolSetpointLimit(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinCoolSetpointLimit(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxCoolSetpointLimit(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxCoolSetpointLimit(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinSetpointDeadBand(Callback::Cancelable * onSuccessCallback,
+                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                     uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinSetpointDeadBand(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeControlSequenceOfOperation(Callback::Cancelable * onSuccessCallback,
+                                                            Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                            uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeControlSequenceOfOperation(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeSystemMode(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeSystemMode(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeStartOfWeek(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeStartOfWeek(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNumberOfWeeklyTransitions(Callback::Cancelable * onSuccessCallback,
+                                                           Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                           uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNumberOfWeeklyTransitions(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNumberOfDailyTransitions(Callback::Cancelable * onSuccessCallback,
+                                                          Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                          uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNumberOfDailyTransitions(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeFeatureMap(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeFeatureMap(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -1597,6 +2635,20 @@ class DLL_EXPORT ThermostatUserInterfaceConfigurationCluster : public ClusterBas
                                            uint8_t value);
     CHIP_ERROR WriteAttributeScheduleProgrammingVisibility(Callback::Cancelable * onSuccessCallback,
                                                            Callback::Cancelable * onFailureCallback, uint8_t value);
+    CHIP_ERROR SubscribeAttributeTemperatureDisplayMode(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTemperatureDisplayMode(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeKeypadLockout(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeKeypadLockout(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeScheduleProgrammingVisibility(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeScheduleProgrammingVisibility(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT ThreadNetworkDiagnosticsCluster : public ClusterBase
@@ -1687,6 +2739,205 @@ class DLL_EXPORT ThreadNetworkDiagnosticsCluster : public ClusterBase
     CHIP_ERROR ReadAttributeActiveNetworkFaultsList(Callback::Cancelable * onSuccessCallback,
                                                     Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeChannel(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                         uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeChannel(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRoutingRole(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRoutingRole(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeNetworkName(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeNetworkName(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePanId(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                       uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePanId(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeExtendedPanId(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeExtendedPanId(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMeshLocalPrefix(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMeshLocalPrefix(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOverrunCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOverrunCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePartitionId(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePartitionId(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeWeighting(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                           uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeWeighting(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeDataVersion(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeDataVersion(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeStableDataVersion(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeStableDataVersion(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeLeaderRouterId(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeLeaderRouterId(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeDetachedRoleCount(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeDetachedRoleCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeChildRoleCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeChildRoleCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRouterRoleCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRouterRoleCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeLeaderRoleCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeLeaderRoleCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeAttachAttemptCount(Callback::Cancelable * onSuccessCallback,
+                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                    uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeAttachAttemptCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePartitionIdChangeCount(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePartitionIdChangeCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeBetterPartitionAttachAttemptCount(Callback::Cancelable * onSuccessCallback,
+                                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBetterPartitionAttachAttemptCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeParentChangeCount(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeParentChangeCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTxTotalCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTxTotalCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTxUnicastCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTxUnicastCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTxBroadcastCount(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTxBroadcastCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTxAckRequestedCount(Callback::Cancelable * onSuccessCallback,
+                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                     uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTxAckRequestedCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTxAckedCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTxAckedCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTxNoAckRequestedCount(Callback::Cancelable * onSuccessCallback,
+                                                       Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                       uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTxNoAckRequestedCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTxDataCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTxDataCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTxDataPollCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTxDataPollCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTxBeaconCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTxBeaconCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTxBeaconRequestCount(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTxBeaconRequestCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTxOtherCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTxOtherCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTxRetryCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTxRetryCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTxDirectMaxRetryExpiryCount(Callback::Cancelable * onSuccessCallback,
+                                                             Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                             uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTxDirectMaxRetryExpiryCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTxIndirectMaxRetryExpiryCount(Callback::Cancelable * onSuccessCallback,
+                                                               Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                               uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTxIndirectMaxRetryExpiryCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTxErrCcaCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTxErrCcaCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTxErrAbortCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTxErrAbortCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeTxErrBusyChannelCount(Callback::Cancelable * onSuccessCallback,
+                                                       Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                       uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeTxErrBusyChannelCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRxTotalCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRxTotalCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRxUnicastCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRxUnicastCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRxBroadcastCount(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRxBroadcastCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRxDataCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRxDataCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRxDataPollCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRxDataPollCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRxBeaconCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRxBeaconCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRxBeaconRequestCount(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRxBeaconRequestCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRxOtherCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRxOtherCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRxAddressFilteredCount(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRxAddressFilteredCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRxDestAddrFilteredCount(Callback::Cancelable * onSuccessCallback,
+                                                         Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                         uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRxDestAddrFilteredCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRxDuplicatedCount(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRxDuplicatedCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRxErrNoFrameCount(Callback::Cancelable * onSuccessCallback,
+                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                   uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRxErrNoFrameCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRxErrUnknownNeighborCount(Callback::Cancelable * onSuccessCallback,
+                                                           Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                           uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRxErrUnknownNeighborCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRxErrInvalidSrcAddrCount(Callback::Cancelable * onSuccessCallback,
+                                                          Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                          uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRxErrInvalidSrcAddrCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRxErrSecCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRxErrSecCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRxErrFcsCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRxErrFcsCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRxErrOtherCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRxErrOtherCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeActiveTimestamp(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeActiveTimestamp(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePendingTimestamp(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePendingTimestamp(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeDelay(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                       uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeDelay(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeChannelMask(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeChannelMask(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -1700,6 +2951,13 @@ class DLL_EXPORT WakeOnLanCluster : public ClusterBase
     // Cluster Attributes
     CHIP_ERROR ReadAttributeWakeOnLanMacAddress(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeWakeOnLanMacAddress(Callback::Cancelable * onSuccessCallback,
+                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                     uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeWakeOnLanMacAddress(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT WiFiNetworkDiagnosticsCluster : public ClusterBase
@@ -1730,6 +2988,52 @@ class DLL_EXPORT WiFiNetworkDiagnosticsCluster : public ClusterBase
     CHIP_ERROR ReadAttributeCurrentMaxRate(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeOverrunCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeBssid(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                       uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBssid(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeSecurityType(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeSecurityType(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeWiFiVersion(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeWiFiVersion(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeChannelNumber(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeChannelNumber(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeRssi(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                      uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeRssi(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeBeaconLostCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBeaconLostCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeBeaconRxCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBeaconRxCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePacketMulticastRxCount(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePacketMulticastRxCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePacketMulticastTxCount(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePacketMulticastTxCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePacketUnicastRxCount(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePacketUnicastRxCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributePacketUnicastTxCount(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval);
+    CHIP_ERROR ReportAttributePacketUnicastTxCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeCurrentMaxRate(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCurrentMaxRate(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOverrunCount(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOverrunCount(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -1786,6 +3090,20 @@ class DLL_EXPORT WindowCoveringCluster : public ClusterBase
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR WriteAttributeMode(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                   uint8_t value);
+    CHIP_ERROR SubscribeAttributeType(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                      uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeType(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeCurrentPositionLift(Callback::Cancelable * onSuccessCallback,
+                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                     uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCurrentPositionLift(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeCurrentPositionTilt(Callback::Cancelable * onSuccessCallback,
+                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                     uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCurrentPositionTilt(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeConfigStatus(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeConfigStatus(Callback::Cancelable * onReportCallback);
     CHIP_ERROR SubscribeAttributeCurrentPositionLiftPercentage(Callback::Cancelable * onSuccessCallback,
                                                                Callback::Cancelable * onFailureCallback, uint16_t minInterval,
                                                                uint16_t maxInterval);
@@ -1806,6 +3124,9 @@ class DLL_EXPORT WindowCoveringCluster : public ClusterBase
                                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
                                                                  uint16_t maxInterval);
     CHIP_ERROR ReportAttributeTargetPositionTiltPercent100ths(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeEndProductType(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeEndProductType(Callback::Cancelable * onReportCallback);
     CHIP_ERROR SubscribeAttributeCurrentPositionLiftPercent100ths(Callback::Cancelable * onSuccessCallback,
                                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
                                                                   uint16_t maxInterval);
@@ -1814,9 +3135,34 @@ class DLL_EXPORT WindowCoveringCluster : public ClusterBase
                                                                   Callback::Cancelable * onFailureCallback, uint16_t minInterval,
                                                                   uint16_t maxInterval);
     CHIP_ERROR ReportAttributeCurrentPositionTiltPercent100ths(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeInstalledOpenLimitLift(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeInstalledOpenLimitLift(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeInstalledClosedLimitLift(Callback::Cancelable * onSuccessCallback,
+                                                          Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                          uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeInstalledClosedLimitLift(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeInstalledOpenLimitTilt(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeInstalledOpenLimitTilt(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeInstalledClosedLimitTilt(Callback::Cancelable * onSuccessCallback,
+                                                          Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                          uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeInstalledClosedLimitTilt(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMode(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                      uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMode(Callback::Cancelable * onReportCallback);
     CHIP_ERROR SubscribeAttributeSafetyStatus(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                               uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeSafetyStatus(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeFeatureMap(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeFeatureMap(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
diff --git a/zzz_generated/lighting-app/zap-generated/CHIPClusters.cpp b/zzz_generated/lighting-app/zap-generated/CHIPClusters.cpp
index 0811065c111e43..4292753792e80b 100644
--- a/zzz_generated/lighting-app/zap-generated/CHIPClusters.cpp
+++ b/zzz_generated/lighting-app/zap-generated/CHIPClusters.cpp
@@ -73,6 +73,23 @@ CHIP_ERROR OnOffCluster::ReadAttributeGlobalSceneControl(Callback::Cancelable *
                                              BasicAttributeFilter<BooleanAttributeCallback>);
 }
 
+CHIP_ERROR OnOffCluster::SubscribeAttributeGlobalSceneControl(Callback::Cancelable * onSuccessCallback,
+                                                              Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                              uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OnOff::Attributes::GlobalSceneControl::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OnOffCluster::ReportAttributeGlobalSceneControl(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OnOff::Attributes::GlobalSceneControl::Id, onReportCallback,
+                                     BasicAttributeFilter<BooleanAttributeCallback>);
+}
+
 CHIP_ERROR OnOffCluster::ReadAttributeOnTime(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
 {
     app::AttributePathParams attributePath;
@@ -94,6 +111,23 @@ CHIP_ERROR OnOffCluster::WriteAttributeOnTime(Callback::Cancelable * onSuccessCa
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR OnOffCluster::SubscribeAttributeOnTime(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OnOff::Attributes::OnTime::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OnOffCluster::ReportAttributeOnTime(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OnOff::Attributes::OnTime::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR OnOffCluster::ReadAttributeOffWaitTime(Callback::Cancelable * onSuccessCallback,
                                                   Callback::Cancelable * onFailureCallback)
 {
@@ -116,6 +150,23 @@ CHIP_ERROR OnOffCluster::WriteAttributeOffWaitTime(Callback::Cancelable * onSucc
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR OnOffCluster::SubscribeAttributeOffWaitTime(Callback::Cancelable * onSuccessCallback,
+                                                       Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                       uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OnOff::Attributes::OffWaitTime::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OnOffCluster::ReportAttributeOffWaitTime(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OnOff::Attributes::OffWaitTime::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR OnOffCluster::ReadAttributeStartUpOnOff(Callback::Cancelable * onSuccessCallback,
                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -138,6 +189,23 @@ CHIP_ERROR OnOffCluster::WriteAttributeStartUpOnOff(Callback::Cancelable * onSuc
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR OnOffCluster::SubscribeAttributeStartUpOnOff(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OnOff::Attributes::StartUpOnOff::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OnOffCluster::ReportAttributeStartUpOnOff(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OnOff::Attributes::StartUpOnOff::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR OnOffCluster::ReadAttributeFeatureMap(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
 {
     app::AttributePathParams attributePath;
@@ -148,6 +216,23 @@ CHIP_ERROR OnOffCluster::ReadAttributeFeatureMap(Callback::Cancelable * onSucces
                                              BasicAttributeFilter<Int32uAttributeCallback>);
 }
 
+CHIP_ERROR OnOffCluster::SubscribeAttributeFeatureMap(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::FeatureMap::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OnOffCluster::ReportAttributeFeatureMap(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::FeatureMap::Id, onReportCallback,
+                                     BasicAttributeFilter<Int32uAttributeCallback>);
+}
+
 CHIP_ERROR OnOffCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -159,5 +244,22 @@ CHIP_ERROR OnOffCluster::ReadAttributeClusterRevision(Callback::Cancelable * onS
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR OnOffCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                           Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                           uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OnOffCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 } // namespace Controller
 } // namespace chip
diff --git a/zzz_generated/lighting-app/zap-generated/CHIPClusters.h b/zzz_generated/lighting-app/zap-generated/CHIPClusters.h
index 7bd77273a4db44..c6c08f07b2e991 100644
--- a/zzz_generated/lighting-app/zap-generated/CHIPClusters.h
+++ b/zzz_generated/lighting-app/zap-generated/CHIPClusters.h
@@ -53,6 +53,25 @@ class DLL_EXPORT OnOffCluster : public ClusterBase
     CHIP_ERROR SubscribeAttributeOnOff(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                        uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeOnOff(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeGlobalSceneControl(Callback::Cancelable * onSuccessCallback,
+                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                    uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeGlobalSceneControl(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOnTime(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                        uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOnTime(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOffWaitTime(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOffWaitTime(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeStartUpOnOff(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeStartUpOnOff(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeFeatureMap(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeFeatureMap(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 } // namespace Controller
diff --git a/zzz_generated/ota-requestor-app/zap-generated/CHIPClusters.cpp b/zzz_generated/ota-requestor-app/zap-generated/CHIPClusters.cpp
index 6e8b1218fb4ea8..3abd6a7b9c3916 100644
--- a/zzz_generated/ota-requestor-app/zap-generated/CHIPClusters.cpp
+++ b/zzz_generated/ota-requestor-app/zap-generated/CHIPClusters.cpp
@@ -196,5 +196,22 @@ CHIP_ERROR OtaSoftwareUpdateProviderCluster::ReadAttributeClusterRevision(Callba
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR OtaSoftwareUpdateProviderCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                               Callback::Cancelable * onFailureCallback,
+                                                                               uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OtaSoftwareUpdateProviderCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 } // namespace Controller
 } // namespace chip
diff --git a/zzz_generated/ota-requestor-app/zap-generated/CHIPClusters.h b/zzz_generated/ota-requestor-app/zap-generated/CHIPClusters.h
index 95d531b50c257d..7b04b96f436f42 100644
--- a/zzz_generated/ota-requestor-app/zap-generated/CHIPClusters.h
+++ b/zzz_generated/ota-requestor-app/zap-generated/CHIPClusters.h
@@ -48,6 +48,9 @@ class DLL_EXPORT OtaSoftwareUpdateProviderCluster : public ClusterBase
 
     // Cluster Attributes
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
diff --git a/zzz_generated/pump-app/zap-generated/CHIPClusters.cpp b/zzz_generated/pump-app/zap-generated/CHIPClusters.cpp
index 59e96d4d545093..0e721bc5b3faa7 100644
--- a/zzz_generated/pump-app/zap-generated/CHIPClusters.cpp
+++ b/zzz_generated/pump-app/zap-generated/CHIPClusters.cpp
@@ -75,6 +75,23 @@ CHIP_ERROR FlowMeasurementCluster::ReadAttributeMinMeasuredValue(Callback::Cance
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR FlowMeasurementCluster::SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = FlowMeasurement::Attributes::MinMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR FlowMeasurementCluster::ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(FlowMeasurement::Attributes::MinMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR FlowMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
                                                                  Callback::Cancelable * onFailureCallback)
 {
@@ -86,6 +103,23 @@ CHIP_ERROR FlowMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback::Cance
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR FlowMeasurementCluster::SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = FlowMeasurement::Attributes::MaxMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR FlowMeasurementCluster::ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(FlowMeasurement::Attributes::MaxMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR FlowMeasurementCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                 Callback::Cancelable * onFailureCallback)
 {
@@ -97,6 +131,23 @@ CHIP_ERROR FlowMeasurementCluster::ReadAttributeClusterRevision(Callback::Cancel
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR FlowMeasurementCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                     uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR FlowMeasurementCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // PressureMeasurement Cluster Commands
 // PressureMeasurement Cluster Attributes
 CHIP_ERROR PressureMeasurementCluster::ReadAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback,
@@ -138,6 +189,23 @@ CHIP_ERROR PressureMeasurementCluster::ReadAttributeMinMeasuredValue(Callback::C
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR PressureMeasurementCluster::SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PressureMeasurement::Attributes::MinMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PressureMeasurementCluster::ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PressureMeasurement::Attributes::MinMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR PressureMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -149,6 +217,23 @@ CHIP_ERROR PressureMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback::C
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR PressureMeasurementCluster::SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PressureMeasurement::Attributes::MaxMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PressureMeasurementCluster::ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PressureMeasurement::Attributes::MaxMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR PressureMeasurementCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -160,6 +245,23 @@ CHIP_ERROR PressureMeasurementCluster::ReadAttributeClusterRevision(Callback::Ca
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR PressureMeasurementCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                         Callback::Cancelable * onFailureCallback,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PressureMeasurementCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // TemperatureMeasurement Cluster Commands
 // TemperatureMeasurement Cluster Attributes
 CHIP_ERROR TemperatureMeasurementCluster::ReadAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback,
@@ -201,6 +303,23 @@ CHIP_ERROR TemperatureMeasurementCluster::ReadAttributeMinMeasuredValue(Callback
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR TemperatureMeasurementCluster::SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TemperatureMeasurement::Attributes::MinMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TemperatureMeasurementCluster::ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TemperatureMeasurement::Attributes::MinMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR TemperatureMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
                                                                         Callback::Cancelable * onFailureCallback)
 {
@@ -212,6 +331,23 @@ CHIP_ERROR TemperatureMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR TemperatureMeasurementCluster::SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TemperatureMeasurement::Attributes::MaxMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TemperatureMeasurementCluster::ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TemperatureMeasurement::Attributes::MaxMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR TemperatureMeasurementCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -223,5 +359,22 @@ CHIP_ERROR TemperatureMeasurementCluster::ReadAttributeClusterRevision(Callback:
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR TemperatureMeasurementCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                            Callback::Cancelable * onFailureCallback,
+                                                                            uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TemperatureMeasurementCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 } // namespace Controller
 } // namespace chip
diff --git a/zzz_generated/pump-app/zap-generated/CHIPClusters.h b/zzz_generated/pump-app/zap-generated/CHIPClusters.h
index 571b2630f6fb3f..3007da1260fad8 100644
--- a/zzz_generated/pump-app/zap-generated/CHIPClusters.h
+++ b/zzz_generated/pump-app/zap-generated/CHIPClusters.h
@@ -44,6 +44,17 @@ class DLL_EXPORT FlowMeasurementCluster : public ClusterBase
     CHIP_ERROR SubscribeAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT PressureMeasurementCluster : public ClusterBase
@@ -60,6 +71,17 @@ class DLL_EXPORT PressureMeasurementCluster : public ClusterBase
     CHIP_ERROR SubscribeAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT TemperatureMeasurementCluster : public ClusterBase
@@ -76,6 +98,17 @@ class DLL_EXPORT TemperatureMeasurementCluster : public ClusterBase
     CHIP_ERROR SubscribeAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 } // namespace Controller
diff --git a/zzz_generated/pump-controller-app/zap-generated/CHIPClusters.cpp b/zzz_generated/pump-controller-app/zap-generated/CHIPClusters.cpp
index ca26e9aa3a4f0d..1aa69f399b6c8c 100644
--- a/zzz_generated/pump-controller-app/zap-generated/CHIPClusters.cpp
+++ b/zzz_generated/pump-controller-app/zap-generated/CHIPClusters.cpp
@@ -75,6 +75,23 @@ CHIP_ERROR FlowMeasurementCluster::ReadAttributeMinMeasuredValue(Callback::Cance
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR FlowMeasurementCluster::SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = FlowMeasurement::Attributes::MinMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR FlowMeasurementCluster::ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(FlowMeasurement::Attributes::MinMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR FlowMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
                                                                  Callback::Cancelable * onFailureCallback)
 {
@@ -86,6 +103,23 @@ CHIP_ERROR FlowMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback::Cance
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR FlowMeasurementCluster::SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                      Callback::Cancelable * onFailureCallback,
+                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = FlowMeasurement::Attributes::MaxMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR FlowMeasurementCluster::ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(FlowMeasurement::Attributes::MaxMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR FlowMeasurementCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                 Callback::Cancelable * onFailureCallback)
 {
@@ -97,6 +131,23 @@ CHIP_ERROR FlowMeasurementCluster::ReadAttributeClusterRevision(Callback::Cancel
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR FlowMeasurementCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                     uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR FlowMeasurementCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // LevelControl Cluster Commands
 CHIP_ERROR LevelControlCluster::Move(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                      uint8_t moveMode, uint8_t rate, uint8_t optionMask, uint8_t optionOverride)
@@ -495,6 +546,23 @@ CHIP_ERROR LevelControlCluster::ReadAttributeClusterRevision(Callback::Cancelabl
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR LevelControlCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                  uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR LevelControlCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // OnOff Cluster Commands
 CHIP_ERROR OnOffCluster::Off(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback)
 {
@@ -621,6 +689,22 @@ CHIP_ERROR OnOffCluster::ReadAttributeOnOff(Callback::Cancelable * onSuccessCall
                                              BasicAttributeFilter<BooleanAttributeCallback>);
 }
 
+CHIP_ERROR OnOffCluster::SubscribeAttributeOnOff(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OnOff::Attributes::OnOff::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OnOffCluster::ReportAttributeOnOff(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OnOff::Attributes::OnOff::Id, onReportCallback,
+                                     BasicAttributeFilter<BooleanAttributeCallback>);
+}
+
 CHIP_ERROR OnOffCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -632,6 +716,23 @@ CHIP_ERROR OnOffCluster::ReadAttributeClusterRevision(Callback::Cancelable * onS
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR OnOffCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                           Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                           uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OnOffCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // PressureMeasurement Cluster Commands
 // PressureMeasurement Cluster Attributes
 CHIP_ERROR PressureMeasurementCluster::ReadAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback,
@@ -673,6 +774,23 @@ CHIP_ERROR PressureMeasurementCluster::ReadAttributeMinMeasuredValue(Callback::C
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR PressureMeasurementCluster::SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PressureMeasurement::Attributes::MinMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PressureMeasurementCluster::ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PressureMeasurement::Attributes::MinMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR PressureMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -684,6 +802,23 @@ CHIP_ERROR PressureMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback::C
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR PressureMeasurementCluster::SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PressureMeasurement::Attributes::MaxMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PressureMeasurementCluster::ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PressureMeasurement::Attributes::MaxMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR PressureMeasurementCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -695,6 +830,23 @@ CHIP_ERROR PressureMeasurementCluster::ReadAttributeClusterRevision(Callback::Ca
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR PressureMeasurementCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                         Callback::Cancelable * onFailureCallback,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PressureMeasurementCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // PumpConfigurationAndControl Cluster Commands
 // PumpConfigurationAndControl Cluster Attributes
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxPressure(Callback::Cancelable * onSuccessCallback,
@@ -708,6 +860,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxPressure(Callback
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeMaxPressure(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::MaxPressure::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeMaxPressure(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::MaxPressure::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxSpeed(Callback::Cancelable * onSuccessCallback,
                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -719,6 +888,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxSpeed(Callback::C
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeMaxSpeed(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::MaxSpeed::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeMaxSpeed(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::MaxSpeed::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxFlow(Callback::Cancelable * onSuccessCallback,
                                                                     Callback::Cancelable * onFailureCallback)
 {
@@ -730,6 +916,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeMaxFlow(Callback::Ca
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeMaxFlow(Callback::Cancelable * onSuccessCallback,
+                                                                         Callback::Cancelable * onFailureCallback,
+                                                                         uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::MaxFlow::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeMaxFlow(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::MaxFlow::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeEffectiveOperationMode(Callback::Cancelable * onSuccessCallback,
                                                                                    Callback::Cancelable * onFailureCallback)
 {
@@ -741,6 +944,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeEffectiveOperationMo
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeEffectiveOperationMode(Callback::Cancelable * onSuccessCallback,
+                                                                                        Callback::Cancelable * onFailureCallback,
+                                                                                        uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::EffectiveOperationMode::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeEffectiveOperationMode(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::EffectiveOperationMode::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeEffectiveControlMode(Callback::Cancelable * onSuccessCallback,
                                                                                  Callback::Cancelable * onFailureCallback)
 {
@@ -752,6 +972,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeEffectiveControlMode
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeEffectiveControlMode(Callback::Cancelable * onSuccessCallback,
+                                                                                      Callback::Cancelable * onFailureCallback,
+                                                                                      uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::EffectiveControlMode::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeEffectiveControlMode(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::EffectiveControlMode::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeCapacity(Callback::Cancelable * onSuccessCallback,
                                                                      Callback::Cancelable * onFailureCallback)
 {
@@ -802,6 +1039,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::WriteAttributeOperationMode(Callb
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeOperationMode(Callback::Cancelable * onSuccessCallback,
+                                                                               Callback::Cancelable * onFailureCallback,
+                                                                               uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = PumpConfigurationAndControl::Attributes::OperationMode::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeOperationMode(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::OperationMode::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                             Callback::Cancelable * onFailureCallback)
 {
@@ -813,6 +1067,23 @@ CHIP_ERROR PumpConfigurationAndControlCluster::ReadAttributeClusterRevision(Call
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                                 Callback::Cancelable * onFailureCallback,
+                                                                                 uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // TemperatureMeasurement Cluster Commands
 // TemperatureMeasurement Cluster Attributes
 CHIP_ERROR TemperatureMeasurementCluster::ReadAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback,
@@ -854,6 +1125,23 @@ CHIP_ERROR TemperatureMeasurementCluster::ReadAttributeMinMeasuredValue(Callback
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR TemperatureMeasurementCluster::SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TemperatureMeasurement::Attributes::MinMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TemperatureMeasurementCluster::ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TemperatureMeasurement::Attributes::MinMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR TemperatureMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
                                                                         Callback::Cancelable * onFailureCallback)
 {
@@ -865,6 +1153,23 @@ CHIP_ERROR TemperatureMeasurementCluster::ReadAttributeMaxMeasuredValue(Callback
                                              BasicAttributeFilter<Int16sAttributeCallback>);
 }
 
+CHIP_ERROR TemperatureMeasurementCluster::SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = TemperatureMeasurement::Attributes::MaxMeasuredValue::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TemperatureMeasurementCluster::ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(TemperatureMeasurement::Attributes::MaxMeasuredValue::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16sAttributeCallback>);
+}
+
 CHIP_ERROR TemperatureMeasurementCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -876,5 +1181,22 @@ CHIP_ERROR TemperatureMeasurementCluster::ReadAttributeClusterRevision(Callback:
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR TemperatureMeasurementCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                            Callback::Cancelable * onFailureCallback,
+                                                                            uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR TemperatureMeasurementCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 } // namespace Controller
 } // namespace chip
diff --git a/zzz_generated/pump-controller-app/zap-generated/CHIPClusters.h b/zzz_generated/pump-controller-app/zap-generated/CHIPClusters.h
index eb764ca88d1482..ebd88dfdb937df 100644
--- a/zzz_generated/pump-controller-app/zap-generated/CHIPClusters.h
+++ b/zzz_generated/pump-controller-app/zap-generated/CHIPClusters.h
@@ -44,6 +44,17 @@ class DLL_EXPORT FlowMeasurementCluster : public ClusterBase
     CHIP_ERROR SubscribeAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT LevelControlCluster : public ClusterBase
@@ -75,6 +86,9 @@ class DLL_EXPORT LevelControlCluster : public ClusterBase
     CHIP_ERROR SubscribeAttributeCurrentLevel(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                               uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeCurrentLevel(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -93,6 +107,12 @@ class DLL_EXPORT OnOffCluster : public ClusterBase
     // Cluster Attributes
     CHIP_ERROR ReadAttributeOnOff(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeOnOff(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                       uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOnOff(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -111,6 +131,17 @@ class DLL_EXPORT PressureMeasurementCluster : public ClusterBase
     CHIP_ERROR SubscribeAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT PumpConfigurationAndControlCluster : public ClusterBase
@@ -132,9 +163,32 @@ class DLL_EXPORT PumpConfigurationAndControlCluster : public ClusterBase
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR WriteAttributeOperationMode(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                            uint8_t value);
+    CHIP_ERROR SubscribeAttributeMaxPressure(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                             uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxPressure(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxSpeed(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                          uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxSpeed(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxFlow(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                         uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxFlow(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeEffectiveOperationMode(Callback::Cancelable * onSuccessCallback,
+                                                        Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                        uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeEffectiveOperationMode(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeEffectiveControlMode(Callback::Cancelable * onSuccessCallback,
+                                                      Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                      uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeEffectiveControlMode(Callback::Cancelable * onReportCallback);
     CHIP_ERROR SubscribeAttributeCapacity(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                           uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeCapacity(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeOperationMode(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                               uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeOperationMode(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 class DLL_EXPORT TemperatureMeasurementCluster : public ClusterBase
@@ -151,6 +205,17 @@ class DLL_EXPORT TemperatureMeasurementCluster : public ClusterBase
     CHIP_ERROR SubscribeAttributeMeasuredValue(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                uint16_t minInterval, uint16_t maxInterval);
     CHIP_ERROR ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMinMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMinMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeMaxMeasuredValue(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeMaxMeasuredValue(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 };
 
 } // namespace Controller
diff --git a/zzz_generated/thermostat/zap-generated/CHIPClusters.cpp b/zzz_generated/thermostat/zap-generated/CHIPClusters.cpp
index 3b6ca45c83ce18..92cc879105049d 100644
--- a/zzz_generated/thermostat/zap-generated/CHIPClusters.cpp
+++ b/zzz_generated/thermostat/zap-generated/CHIPClusters.cpp
@@ -137,6 +137,23 @@ CHIP_ERROR IdentifyCluster::WriteAttributeIdentifyTime(Callback::Cancelable * on
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR IdentifyCluster::SubscribeAttributeIdentifyTime(Callback::Cancelable * onSuccessCallback,
+                                                           Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                           uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Identify::Attributes::IdentifyTime::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR IdentifyCluster::ReportAttributeIdentifyTime(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Identify::Attributes::IdentifyTime::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 CHIP_ERROR IdentifyCluster::ReadAttributeIdentifyType(Callback::Cancelable * onSuccessCallback,
                                                       Callback::Cancelable * onFailureCallback)
 {
@@ -148,6 +165,23 @@ CHIP_ERROR IdentifyCluster::ReadAttributeIdentifyType(Callback::Cancelable * onS
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR IdentifyCluster::SubscribeAttributeIdentifyType(Callback::Cancelable * onSuccessCallback,
+                                                           Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                           uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Identify::Attributes::IdentifyType::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR IdentifyCluster::ReportAttributeIdentifyType(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Identify::Attributes::IdentifyType::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR IdentifyCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                          Callback::Cancelable * onFailureCallback)
 {
@@ -159,5 +193,22 @@ CHIP_ERROR IdentifyCluster::ReadAttributeClusterRevision(Callback::Cancelable *
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR IdentifyCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                              Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                              uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR IdentifyCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 } // namespace Controller
 } // namespace chip
diff --git a/zzz_generated/thermostat/zap-generated/CHIPClusters.h b/zzz_generated/thermostat/zap-generated/CHIPClusters.h
index 76680d6a45dad0..b45f7582785e85 100644
--- a/zzz_generated/thermostat/zap-generated/CHIPClusters.h
+++ b/zzz_generated/thermostat/zap-generated/CHIPClusters.h
@@ -46,6 +46,15 @@ class DLL_EXPORT IdentifyCluster : public ClusterBase
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR WriteAttributeIdentifyTime(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                           uint16_t value);
+    CHIP_ERROR SubscribeAttributeIdentifyTime(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeIdentifyTime(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeIdentifyType(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                              uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeIdentifyType(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
diff --git a/zzz_generated/tv-app/zap-generated/CHIPClusters.cpp b/zzz_generated/tv-app/zap-generated/CHIPClusters.cpp
index 13d82687574d55..60d6c2ece2c926 100644
--- a/zzz_generated/tv-app/zap-generated/CHIPClusters.cpp
+++ b/zzz_generated/tv-app/zap-generated/CHIPClusters.cpp
@@ -193,6 +193,23 @@ CHIP_ERROR GeneralCommissioningCluster::WriteAttributeBreadcrumb(Callback::Cance
     return mDevice->SendWriteAttributeRequest(std::move(handle), onSuccessCallback, onFailureCallback);
 }
 
+CHIP_ERROR GeneralCommissioningCluster::SubscribeAttributeBreadcrumb(Callback::Cancelable * onSuccessCallback,
+                                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                                     uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = GeneralCommissioning::Attributes::Breadcrumb::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR GeneralCommissioningCluster::ReportAttributeBreadcrumb(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(GeneralCommissioning::Attributes::Breadcrumb::Id, onReportCallback,
+                                     BasicAttributeFilter<Int64uAttributeCallback>);
+}
+
 CHIP_ERROR GeneralCommissioningCluster::ReadAttributeBasicCommissioningInfoList(Callback::Cancelable * onSuccessCallback,
                                                                                 Callback::Cancelable * onFailureCallback)
 {
@@ -215,6 +232,23 @@ CHIP_ERROR GeneralCommissioningCluster::ReadAttributeClusterRevision(Callback::C
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR GeneralCommissioningCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR GeneralCommissioningCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // NetworkCommissioning Cluster Commands
 CHIP_ERROR NetworkCommissioningCluster::DisableNetwork(Callback::Cancelable * onSuccessCallback,
                                                        Callback::Cancelable * onFailureCallback, chip::ByteSpan networkID,
@@ -413,6 +447,23 @@ CHIP_ERROR NetworkCommissioningCluster::ReadAttributeClusterRevision(Callback::C
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR NetworkCommissioningCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                          Callback::Cancelable * onFailureCallback,
+                                                                          uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR NetworkCommissioningCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 // OperationalCredentials Cluster Commands
 CHIP_ERROR OperationalCredentialsCluster::AddNOC(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                                  chip::ByteSpan NOCValue, chip::ByteSpan ICACValue, chip::ByteSpan IPKValue,
@@ -741,6 +792,23 @@ CHIP_ERROR OperationalCredentialsCluster::ReadAttributeSupportedFabrics(Callback
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR OperationalCredentialsCluster::SubscribeAttributeSupportedFabrics(Callback::Cancelable * onSuccessCallback,
+                                                                             Callback::Cancelable * onFailureCallback,
+                                                                             uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OperationalCredentials::Attributes::SupportedFabrics::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OperationalCredentialsCluster::ReportAttributeSupportedFabrics(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OperationalCredentials::Attributes::SupportedFabrics::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR OperationalCredentialsCluster::ReadAttributeCommissionedFabrics(Callback::Cancelable * onSuccessCallback,
                                                                            Callback::Cancelable * onFailureCallback)
 {
@@ -752,6 +820,23 @@ CHIP_ERROR OperationalCredentialsCluster::ReadAttributeCommissionedFabrics(Callb
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR OperationalCredentialsCluster::SubscribeAttributeCommissionedFabrics(Callback::Cancelable * onSuccessCallback,
+                                                                                Callback::Cancelable * onFailureCallback,
+                                                                                uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OperationalCredentials::Attributes::CommissionedFabrics::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OperationalCredentialsCluster::ReportAttributeCommissionedFabrics(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OperationalCredentials::Attributes::CommissionedFabrics::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR OperationalCredentialsCluster::ReadAttributeTrustedRootCertificates(Callback::Cancelable * onSuccessCallback,
                                                                                Callback::Cancelable * onFailureCallback)
 {
@@ -774,6 +859,23 @@ CHIP_ERROR OperationalCredentialsCluster::ReadAttributeCurrentFabricIndex(Callba
                                              BasicAttributeFilter<Int8uAttributeCallback>);
 }
 
+CHIP_ERROR OperationalCredentialsCluster::SubscribeAttributeCurrentFabricIndex(Callback::Cancelable * onSuccessCallback,
+                                                                               Callback::Cancelable * onFailureCallback,
+                                                                               uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = OperationalCredentials::Attributes::CurrentFabricIndex::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OperationalCredentialsCluster::ReportAttributeCurrentFabricIndex(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(OperationalCredentials::Attributes::CurrentFabricIndex::Id, onReportCallback,
+                                     BasicAttributeFilter<Int8uAttributeCallback>);
+}
+
 CHIP_ERROR OperationalCredentialsCluster::ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
                                                                        Callback::Cancelable * onFailureCallback)
 {
@@ -785,5 +887,22 @@ CHIP_ERROR OperationalCredentialsCluster::ReadAttributeClusterRevision(Callback:
                                              BasicAttributeFilter<Int16uAttributeCallback>);
 }
 
+CHIP_ERROR OperationalCredentialsCluster::SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback,
+                                                                            Callback::Cancelable * onFailureCallback,
+                                                                            uint16_t minInterval, uint16_t maxInterval)
+{
+    chip::app::AttributePathParams attributePath;
+    attributePath.mEndpointId  = mEndpoint;
+    attributePath.mClusterId   = mClusterId;
+    attributePath.mAttributeId = Globals::Attributes::ClusterRevision::Id;
+    return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback);
+}
+
+CHIP_ERROR OperationalCredentialsCluster::ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback)
+{
+    return RequestAttributeReporting(Globals::Attributes::ClusterRevision::Id, onReportCallback,
+                                     BasicAttributeFilter<Int16uAttributeCallback>);
+}
+
 } // namespace Controller
 } // namespace chip
diff --git a/zzz_generated/tv-app/zap-generated/CHIPClusters.h b/zzz_generated/tv-app/zap-generated/CHIPClusters.h
index 2a8d7fd071f975..0b5da340074aa1 100644
--- a/zzz_generated/tv-app/zap-generated/CHIPClusters.h
+++ b/zzz_generated/tv-app/zap-generated/CHIPClusters.h
@@ -50,6 +50,12 @@ class DLL_EXPORT GeneralCommissioningCluster : public ClusterBase
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR WriteAttributeBreadcrumb(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
                                         uint64_t value);
+    CHIP_ERROR SubscribeAttributeBreadcrumb(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                            uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeBreadcrumb(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -72,6 +78,9 @@ class DLL_EXPORT NetworkCommissioningCluster : public ClusterBase
 
     // Cluster Attributes
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };
@@ -106,6 +115,21 @@ class DLL_EXPORT OperationalCredentialsCluster : public ClusterBase
                                                     Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeCurrentFabricIndex(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
     CHIP_ERROR ReadAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback);
+    CHIP_ERROR SubscribeAttributeSupportedFabrics(Callback::Cancelable * onSuccessCallback,
+                                                  Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                  uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeSupportedFabrics(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeCommissionedFabrics(Callback::Cancelable * onSuccessCallback,
+                                                     Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                     uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCommissionedFabrics(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeCurrentFabricIndex(Callback::Cancelable * onSuccessCallback,
+                                                    Callback::Cancelable * onFailureCallback, uint16_t minInterval,
+                                                    uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeCurrentFabricIndex(Callback::Cancelable * onReportCallback);
+    CHIP_ERROR SubscribeAttributeClusterRevision(Callback::Cancelable * onSuccessCallback, Callback::Cancelable * onFailureCallback,
+                                                 uint16_t minInterval, uint16_t maxInterval);
+    CHIP_ERROR ReportAttributeClusterRevision(Callback::Cancelable * onReportCallback);
 
 private:
 };